Source: https://patents.google.com/patent/JP2016149143A/en
Timestamp: 2020-03-29 05:54:39
Document Index: 292795579

Matched Legal Cases: ['application No. 20133204953', 'Application No. 61', 'arty 1', 'arty 2', 'arty 1', 'arty 2', 'arty 1', 'arty 2', 'arty 110']

JP2016149143A - Method and apparatus to collect distributed user information for media impression and search term - Google Patents
Method and apparatus to collect distributed user information for media impression and search term Download PDF
JP2016149143A
JP2016149143A JP2016051033A JP2016051033A JP2016149143A JP 2016149143 A JP2016149143 A JP 2016149143A JP 2016051033 A JP2016051033 A JP 2016051033A JP 2016051033 A JP2016051033 A JP 2016051033A JP 2016149143 A JP2016149143 A JP 2016149143A
JP2016051033A
JP6366196B2 (en
ジョン アール． バーバンク，
R Burbank John
マドゥスーダン レディー アラ，
Reddy Alla Madhusudhan
ザ ニールセン カンパニー （ユー エス） エルエルシー
2012-08-30 Priority to US201261695169P priority Critical
2012-08-30 Priority to US61/695,169 priority
2012-09-06 Priority to US201261697597P priority
2012-09-06 Priority to US61/697,597 priority
2013-04-12 Priority to AU2013204953A priority patent/AU2013204953B2/en
2013-04-12 Priority to AU2013204953 priority
2016-03-15 Application filed by ザ ニールセン カンパニー （ユー エス） エルエルシー, Nielsen Co (Us) Llc, ザ ニールセン カンパニー （ユー エス） エルエルシー filed Critical ザ ニールセン カンパニー （ユー エス） エルエルシー
2016-08-18 Publication of JP2016149143A publication Critical patent/JP2016149143A/en
2018-08-01 Publication of JP6366196B2 publication Critical patent/JP6366196B2/en
2033-08-28 Anticipated expiration legal-status Critical
PROBLEM TO BE SOLVED: To provide a method of collecting distributed user information for used media and search terms.SOLUTION: A method includes: decoding information from a mobile device to encrypted identifiers identifying at least one of the mobile device or a user of the mobile device; sending respective ones of the encrypted identifiers to corresponding database proprietors; receiving multiple pieces of user information corresponding to the respective ones of the encrypted identifiers from the corresponding database proprietors; and associating the user information with at least one of a search term collected at the mobile device or a media impression logged for media presented at the mobile device.SELECTED DRAWING: Figure 7
[0001] This is a Australian patent application No. 20133204953 filed on April 12, 2013, a US provisional application filed on September 6, 2012, which is incorporated herein by reference in its entirety. No. 61 / 697,597 and US Provisional Application No. 61 / 695,169 filed Aug. 30, 2012.
Disclosure field
[0002] The present disclosure relates generally to media monitoring, and more particularly to a method and apparatus for collecting distributed user information related to media impressions and search terms.
[0003] Conventionally, the audience measurement entity determines the audience engagement level for media programming based on registered panel members. That is, the viewer measurement entity joins the panel to those who have agreed to receive monitoring. The audience measurement entity then monitors these panel members to determine the media programs (eg, television programs, radio programs, movies, DVDs, etc.) exposed to these panel members. In this way, the audience measurement entity can determine an exposure strategy for different media content based on the collected media measurement data.
[0004] Techniques for monitoring user access to Internet resources such as web pages, advertisements and / or other content have evolved significantly over the years. Some known systems perform such monitoring primarily through server logs. In particular, an entity that distributes content over the Internet can log the number of requests received for these content at its server using well-known techniques.
[0005] FIG. 1 is an illustration of an example system for collecting user information from a distributed database owner for association with impressions related to media presented to a mobile device.
[0006] FIG. 2 illustrates an example apparatus for encrypting a device and / or user identifier and encoding the encrypted device and / or user identifier to be an application campaign rating (ACR) identifier. FIG.
[0007] FIG. 3 decodes the encrypted device and / or user identifier from the ACR identifier of FIG. 2 and encrypts to request user information associated with the encrypted device and / or user identifier. FIG. 6 illustrates an example apparatus for sending a completed device and / or user identifier to a corresponding database owner.
[0008] FIG. 4 illustrates that the example apparatus of FIG. 3 decodes an ACR identifier having several empty fields that do not contain any device and / or user identifiers.
[0009] FIG. 5 is a flow diagram illustrating example machine-readable instructions that may be executed to collect a media identifier and a device and / or user identifier at a mobile device.
[0010] FIG. 6 depicts exemplary machine readable instructions that may be executed to encrypt the device and / or user identifier and encode the encrypted device and / or user identifier into the ACR identifier of FIG. It is a flow chart.
[0011] FIG. 7 decodes the encrypted device and / or user identifier from the ACR identifier of FIG. 2 and retrieves user information associated with the encrypted device and / or user identifier from the corresponding database owner. 6 is a flow diagram illustrating example machine readable instructions that may be executed to collect.
[0012] FIG. 8 is a diagram of an example processor system that may be used to execute the example instructions of FIGS. 5-7, 11 and 15 to implement the example devices and systems disclosed herein. is there.
[0013] FIG. 9 is a diagram illustrating another example system for collecting user information from a distributed database owner for association with impressions related to media presented to a mobile device.
[0014] FIG. 10 illustrates yet another example system for collecting user information from a distributed database owner for association with impressions related to media presented to a mobile device.
[0015] FIG. 11 is a flow diagram illustrating example machine-readable instructions that may be executed at a media publisher to collect media identifiers and device and / or user identifiers.
[0016] FIG. 12 is an illustration of an example system for collecting user information from a distributed database owner for association with search terms provided by a user on a mobile device.
[0017] FIG. 13 is an illustration of another example system for collecting user information from a distributed database owner for association with a search term provided by a user on a mobile device.
[0018] FIG. 14 illustrates yet another example system for collecting user information from a distributed database owner for association with search terms provided by a user on a mobile device.
[0019] FIG. 15 is a flow diagram illustrating example machine readable instructions that may be executed to collect search terms and device and / or user identifiers at a search provider.
[0020] Techniques for monitoring user access to Internet resources such as web pages, advertisements and / or other content have evolved significantly over the years. At some point in the past, such monitoring was mainly done through server logs. In particular, an entity that distributes content over the Internet will log the number of requests received for these media at its server. Basing Internet usage research on server logs is problematic for several reasons. For example, the server log can be tampered with either directly or through a zombie program that repeatedly requests content from the server and increases the server log count. Secondly, content is sometimes retrieved once, cached locally, and then repeatedly referenced from this local cache, and this iterative reference does not require a server. Server logs are unable to keep track of such references to cached content. Therefore, server logs are prone to both overcounting and undercounting errors.
[0021] The invention disclosed in Blumenau US Pat. No. 6,108,637 fundamentally changes the way Internet monitoring is performed and overcomes the limitations of the server side log monitoring technique described above. Blumenau, for example, discloses a technique in which beacon instructions are tagged on Internet content to be tracked. In particular, the monitoring instruction is associated with the HTML of the content to be tracked. When content is requested by a client, both the content and beacon instructions are downloaded to that client. Beacon instructions are therefore always executed when content is accessed, regardless of whether the access is from a server or from a cache.
[0022] The beacon instruction causes monitoring data reflecting information regarding access to the content to be sent from the client that downloaded the content to the monitoring entity. The monitoring entity is typically an audience measurement entity (eg, The Nielsen Company, LLC) that does not provide content to the client and is a reliable third party for providing accurate usage statistics. Because beacon instructions are associated with the content and executed by the client browser whenever the content is accessed, monitoring information is provided to the audience measurement company regardless of whether the client is a panelist of the audience measurement company. This is advantageous.
[0023] However, it is useful to link demographic and / or other user information to monitoring information. To address this issue, audience measurement companies set up a panel of users who have agreed to provide their demographic information and receive monitoring of their Internet browsing activity. When an individual participates in the panel, he provides viewers with detailed information about their identity and demographics (eg gender, race, income, residence, occupation, etc.). The viewer measurement entity sets a cookie on the panelist's computer that enables the viewer measurement entity to identify the panelist whenever the panelist accesses tagged content, so monitoring information Sent to the audience measurement entity.
[0024] Since most of the clients that provide monitoring information from tagged pages are not panelists and are therefore unknown to the audience measurement entity, using statistical methods, based on the data collected for the panelists It is necessary to provide data on content tagged with demographic information attributed to large population users. However, the panel size of the audience measurement entity remains small compared to the entire user population. Therefore, the question is how to increase the size of the panel while ensuring that the demographic data of the panel is accurate.
[0025] There are many database owners operating on the Internet. These database owners serve a large number of subscribers. In exchange for providing the service, the subscriber registers with this owner. As part of this registration, the subscriber provides detailed demographic information. Examples of such database owners include social network providers such as Facebook and Myspace. These database owners set a cookie on the subscriber's computer so that the database owner can recognize the user when the user visits the website.
[0026] Internet protocols make cookies inaccessible outside of the domain you set (eg, Internet domain, domain name, etc.). Therefore, amazon. The cookie set in the com domain is Amazon.com. The servers in the com domain are accessible, but the servers outside this domain are inaccessible. Thus, even though it would be advantageous if the audience measurement entity could access the cookies set by the database owner, this is not possible. In addition, apps running on mobile device platforms do not use cookies in the same way as web browsers. Although the app presents media corresponding to impression tracking, conventional techniques that use cookie-based schemes to track such media impressions cannot be used with app environment content.
[0027] In view of the above, audience measurement companies are more commonly used in broader Internet usage and demographic data and / or web browsers by leveraging the database owner's existing database. You want to collect user data for association with tracked media impressions on devices that run apps that do not use cookies. However, audience measurement entities face several problems in achieving this goal. For example, problems are raised regarding how to access data of database owners without compromising the privacy of subscribers, panelists or content owners being tracked. Another issue is how to access this data in the presence of technical constraints imposed by mobile device app software platforms that do not use cookies.
[0028] According to exemplary methods, apparatus and / or products disclosed herein, tracking media impressions for media presented by a mobile device app running on a mobile device can be performed using cookies for tracking media impressions. Can be done without having to rely on According to this scheme, an audience measurement entity (AME) can track media impressions on mobile devices where apps that do not use cookies have higher usage rates than web browsers that use cookies. The example disclosed herein also protects the user's privacy by encrypting the identification information in such a way that the personal identification information is not revealed to the AME. In the examples disclosed herein, this process includes one or more encrypted devices and / or user identifier (s) retrieved from the mobile device (ie, device / user identifier (s)). This is realized by using an application campaign rating (ACR) identifier (ID). The one or more encrypted device / user identifier (s) then store one or more encrypted device / user identifier (s) that store user information relating to the user who registered that one or more. It can be used to retrieve user information about a user of a mobile device by sending to multiple corresponding database owners. In the illustrated example, to protect user privacy, the AME does not have a key to decrypt the encrypted device / user identifier, and only each database owner has its service (eg, wireless communication business Each respective key (s) that can be used to decrypt only the device / user identifier (s) associated with the subscriber service, social network service, email service, mobile phone ecosystem app or media service, etc. ). In this way, personal identification information about a particular service is not known to the AME or just the database owner, but only to the database owner that provides the service.
[0029] In the example disclosed herein, when a viewer measurement entity receives an ACR ID that includes one or more encrypted device / user identifier (s), the viewer measurement entity User information can be requested from the database owner who has become one or more partners for the device / user identifier (s) that have been digitized. In this way, the partner database owner (s) provides user information regarding the encrypted device / user identifier (s) to the audience measurement entity and one or more mobile devices ( It is possible to associate user information with one or more media IDs of media presented by the app (s) above. Since the identification of users or client mobile devices is performed by reference to a huge database of users that far exceeds the number of people present in traditional audience measurement panels, the data developed from this process is extremely accurate and reliable. And detailed. In some examples, by agreeing to participate in a coordinated audience measurement effort, the partner database owner will receive viewer user information and exposure information collected by other partner database owners. Is provided. In this way, the partner database owner can supplement his viewer exposure metrics with information provided by the other database owners.
[0030] The example methods, apparatus and products disclosed herein use user information distributed across various databases (eg, different website owners, service providers, etc.) on the Internet, It can be used to determine content impressions, ad impressions, content exposure and / or ad exposure. The exemplary methods, devices and products disclosed herein not only allow for a more accurate correlation of Internet media exposure to user information, but they also participate in a panel of audience measurement entities and / or rating entities. Wireless service carriers, mobile software / service providers, social media sites (eg, Facebook, Twitter, Google, etc.) and / or Yahoo! It effectively extends the size and configuration of the panel to those who have registered in other Internet databases such as the database of any other Internet site such as MSN, Apple Tunes, Expertian. This enhancement effectively leverages the use of audience measurement entity media impression tracking and the use of databases from non-AME entities such as social media and other websites to generate massive, demographically accurate panels, This provides an accurate and reliable measure of exposure to Internet content such as advertising and / or programming.
[0031] Traditionally, an audience measurement entity (also referred to herein as a "rating entity") determines a demographic reach for advertising and media programming based on registered panel members. That is, the audience measurement entity joins the panel to those who have agreed to receive monitoring. During enrollment, the audience measurement entity receives demographic information from enrollees so that correlations can continue between ad / media exposure to these panelists and various demographic markets. Unlike conventional techniques where the audience measurement entity relies solely on its own panel member data to collect demographic-based audience measurements, the exemplary methods, apparatus, and devices disclosed herein According to the product, the audience measurement entity can share demographic information by other entities operating based on the user registration model. As used herein, a user registration model is a model in which a user subscribes to the services of these entities by creating an account and providing demographic related information about himself. By sharing demographic information associated with the registered user of the database owner, the audience measurement entity can send its panel data to a substantially reliable source from an external source (eg, database owner). It can be extended or supplemented by demographic information, thereby extending the coverage, accuracy and / or completeness of its demographic-based audience measurement. Such access also allows the viewer measurement entity to monitor people who are not participating in the viewer measurement panel. Any entity that has a database identifying demographics for a group of individuals may work with the audience measurement entity. Such entities may be referred to as “database owners” and may include wireless service carriers, mobile software / service providers, social media sites (eg, Facebook, Twitter, Google, Others) and / or Yahoo! , MSN, Apple iTunes, and any other Internet site such as Expertian.
[0032] The example methods, apparatus, and / or products disclosed herein may be used for audience measurement entities (eg, advertisements, content, and / or any other media for the development of online media exposure metrics). May be implemented in conjunction with any number of database owners, such as online web service providers. Such database owners / online web service providers include wireless service carriers, mobile software / service providers, social network sites (eg, Facebook, Twitter, MySpace, etc.), multi-service sites (eg, Yahoo! , Google, Expert, etc.), online retailer sites (eg, Amazon.com, Buy.com, etc.), and / or any other web service (s) site that maintains user registration records. .
[0033] In some examples, the exemplary methods, devices and / or products disclosed herein are viewer-measured to increase the likelihood that the measured reference demographic will be derived from exactly the correct demographics. User information in the entity's record, as well as user information at one or more database owners (eg, web service providers) that maintain the record or profile of the user who owns the account is used. In this manner, the exemplary methods, apparatus, and / or products disclosed herein may be used by rating entities (eg, The Nielsen Company (Illinois, USA) that collects media exposure measurements, demographics, and / or other user information. Can be used to supplement user information maintained by a viewer measurement company (such as Schaumburg State) with user information from one or more different database owners (eg, web service providers). .
[0034] As a result of using demographic information from disparate data sources (eg, high quality demographic information from a panel of audience measurement companies and / or registered user data of web service providers) Improved reporting effectiveness on metrics for both offline advertising campaigns. The exemplary techniques disclosed herein use online registration data to identify user demographics and / or other user information and derive from these users using server impression counts and / or other techniques. Keep track of the amount of impressions you make. Wireless service carriers, mobile software / service providers, social network sites (eg Facebook, Twitter, MySpace, etc.), multi-service sites (eg Yahoo !, Google, Expert, etc.), online retailer sites (eg , Amazon.com, Buy.com, etc.), detailed demographics collected through the user registration process by online web service providers (collectively and individually referred to herein as online database owners) Maintain information (eg, age, gender, geographic location, race, income level, education level, religion, etc.). Impressions correspond to homes or individuals exposed to corresponding media content and / or advertisements. Thus, an impression indicates that a home or individual is exposed to an advertisement or content or a group of advertisements or content. For Internet advertising, the amount of impressions or impression count is the total number of times an ad or ad campaign has been accessed by the web population (eg, decreased by a pop-up blocker and / or increased by, for example, retrieval from local cache memory) (Including the number of times such access has been received).
[0035] FIG. 1 illustrates an example system 100 for collecting user information (eg, user information 102a and 102b) from distributed database owners 104a and 104b for association with media impressions presented at a mobile device 106. Indicates. In the illustrated example, user information or user data includes demographic data, purchase data, and / or media accessed on the Internet, purchases, electronic devices, physical locations visited by the user (eg, retail stores, commercial facilities, restaurants, etc. , Entertainment venues, etc.), and / or other data indicative of user activity, behavior and / or preferences associated with information accessed via others. The examples disclosed herein are described in relation to mobile devices such as mobile phones, mobile communication devices, tablets, gaming devices, portable media display devices, and the like. However, the examples disclosed herein are implemented in connection with non-mobile devices such as Internet appliances, smart TVs, Internet terminals, computers, or any other device capable of presenting media received via network communications. be able to.
[0036] In the example shown in FIG. 1, an audience measurement entity (AME) 108 downloads and installs a data collector 112 on the mobile device 106 to track media impressions on the mobile device 106. 110 or cooperate with 110. The app publisher 110 in the illustrated example can be a software app developer that develops and distributes apps for mobile devices and / or a distributor that receives apps from software app developers and distributes these apps to mobile devices. . In the illustrated example, when the mobile device 106 requests a purchased app program or a free app program 116 in order to download and install the data collector 112 on the mobile device 106, the app publisher 110 sends an app install package to the mobile device 106. 114 is downloaded. The app publisher 110 locates the requested app program 116 and data collector 112 in the app install package 114 and then sends the app install package 114 to the mobile device 106 to install the app program 116 and data collector 112. In some examples, the app publisher 110 may first obtain consent for the user of the mobile device 106 to participate in the media tracking program before sending the data collector 112 to be installed on the mobile device 106.
In the illustrated example, the application program 116 is a game entitled “Angry Bats” presenting the media 118 received from the media publisher 120. The media 118 may be advertising, video, audio, text, graphics, web pages, news, educational media, entertainment media, or any other type of media. In the illustrated example, the AME 108 can credit the media 118 with media impressions when the media 118 is presented in the media 118 on the mobile device 106 or any other device that is monitored by the AME 108. A media ID 122 is provided to allow identification of the media 118.
[0038] In the illustrated example, the AME 108 provides the app publisher 110 with a data collector 112 for packaging together with the app program 116 within the app install package 114. In some examples, the application publisher 110 provides the data collector 112 as a program separate from the application program 116. In another example, the app publisher 110 does not install the data collector 112 as a separate program from the app program 116, but edits or otherwise includes the data collector 112 in the app program 116. The illustrated example data collector 112 collects the app program 116 and / or the media ID 122 of the media 118 presented by the mobile device 106 to the mobile device 106 when executed by the mobile device 106, and the mobile device Including instructions (eg, Java®, java script, or any other computer language or script) that cause one or more device / user identifier (s) 124 stored in 106 to be collected . The illustrated example device / user identifier (s) 124 is used to identify one or more users of the mobile device 106 and to identify the user information 102a-b corresponding to the user (s). Contains an identifier that can be used by the corresponding one of the database owners 104a-b. For example, the device / user identifier (s) 124 may be a hardware identifier (eg, international mobile device identification (IMEI), mobile device identifier (MEID), media access control (MAC) address, etc.), app store identifier (eg, Google Android (registered trademark) ID, Apple ID, Amazon ID, etc.), open source unique device identifier (OpenUDID), open device identification number (ODIN), login identifier (eg, user name), email address, user Agent data (eg, application type, operating system, software vendor, software revision number, etc.), third party service identifier (eg, advertising service identifier, device Use analysis service identifier, population statistics collection service identifier), which may include other. In some examples, the device / user identifier (s) 124 used may or may not be less. Further, in FIG. 1, only two partner database owners 104a-b are shown, but AME 108 may have any number of partner database owners to collect distributed user information (eg, user information 102a-b). May cooperate with.
[0039] In some examples, the type of device / user identifier 124 varies from device to device depending on the device type, device manufacturer, software installed on the device, and the like. For example, mobile devices with cellular 2G, 3G and / or 4G capabilities will have IMEI assigned numbers. However, mobile devices that are Wi-Fi capable but do not have cellular communication capabilities do not have IMEI numbers. Thus, one or more other parameter (s) of the Wi-Fi mobile device may be used as the device / user identifier 124. These other parameters may include, for example, a MAC address, login ID, or any other identifier or information that is available for Wi-Fi enabled devices and not specific to cellular communications.
[0040] The ability to select or access multiple different types of device / user identifiers 124 increases the opportunity for AME 108 to collect corresponding user information. For example, AME 108 may be tied to requesting user information from only a single source (eg, only one of partner database owners 104a-b). Instead, the AME 108 can take advantage of relationships with multiple partner database owners (eg, partner database owners 104a-b). Even if one or several partner database owners are unable or unwilling to share user data, AME 108 may pass user data to one or more other partner database owner (s). It is possible to request.
[0041] In some examples, the mobile device 106 may not allow access to identification information stored on the mobile device 106. In such cases, the disclosed example causes the AME 108 to store an AME-provided identifier (eg, an identifier managed and tracked by the AME 108) for the mobile device 106 to track media impressions on the mobile device 106. Make it possible. For example, the AME 108 may provide instructions in the data collector 112 for setting an AME-provided identifier in a memory space accessible and / or allocated to the application program 116, and the data collector 112 may The identifier is used as the device / user identifier 124. In such an example, the identifier provided by the AME set by the data collector 112 remains in the memory space even when the application program 116 and the data collector 112 are not operating. In this way, the same AME-provided identifier can remain associated with the mobile device 106 for a long time. In some instances where the data collector 112 sets an identifier in the mobile device 106, the AME 108 may recruit new users of the mobile device 106 as panelists and the users collected from this user during the panelist registration process Information and / or user information collected by monitoring user activity / behavior via mobile device 106 and / or any other device used by the user and monitored by AME 108 may be stored. In this way, the AME 108 can associate user information about the user (from the panelist data stored by the AME 108) with media impressions attributed to the user on the mobile device 106.
[0042] In the illustrated example, the data collector 112 sends the media ID 122 and one or more device / user identifier (s) 124 to the app publisher 110 as collected data 126. Alternatively, the data collector 112 collects the media ID (eg, media ID 122) and device / user identifier (eg, device / user identifier (s) 124) from the mobile device (eg, mobile device 106). May be configured to send the collected data 126 to another collection entity (other than the app publisher 110) that is contracted with or associated with the AME 108. In the illustrated example, the app publisher 110 (or collection entity) has created an ACR ID 128 that includes the device / user identifier (s) 124 and the app publisher (or collection entity) has a media ID 122 and The ACR ID 128 is sent as impression data 130 to the server 132 in the AME 108. The impression data 130 in the illustrated example may include one media ID 122 and one ACR ID 128 to report a single impression for the media 118, or the impression data 130 may be mobile device 106 and / or other mobile Multiple media IDs and ACR IDs may be included to report multiple impressions of the media based on multiple example collection data received from the device (eg, collection data 126). In the illustrated example, the server 130 in the illustrated example stores impression data 130 in an AME media impression store 134 (eg, a database or other data structure). Subsequently, the AME 108 may receive the device / user identifier (s) from the ACR ID 128 to receive user information (eg, user information 102a-b) corresponding to the device / user identifier (s) 124 from the partner database owner. ) 124 to the corresponding partner database owner (e.g., partner database owner 104a-b), which causes AME 108 of the media (e.g., media 118) presented to the mobile device (e.g., mobile device 106). Corresponding media impressions can be associated with user information.
[0043] While the above description describes the app publisher 110 (or other collection entity) creating the ACR ID 128, in other examples the data collector 112 on the mobile device 106 has a device / user identifier ( Create an ACR ID 128 that includes 124 (s). In such an example, the data collector 112 sends the ACR ID 128 in the form of collection data 126 to the app publisher 110 (or other collection entity).
[0044] In the illustrated example, the device / user identifier (s) 124 is encrypted before being sent to the AME 108 in the form of an ACR ID 128 to protect the privacy of the user of the mobile device 106. In the illustrated example, the encryption process is performed by the app publisher (110) (or other collection entity) and any of the AME 108 or any other intermediate entity with which the device / user identifier (s) 124 corresponds. This is done so that it is inaccessible before being sent to the database owner (e.g., partner database owner 104a-b). For each partner database owner (e.g., partner database owner 104a-b) who can retrieve the identification information from the mobile device 106 to encrypt the device / user identifier (s) 124, the partner One or more encryption keys specific to the database owner are provided. In this way, each partner database owner has a different key that allows each partner database owner to restore only one or several of the device / user identifier (s) 124 related to it. Have a set of For example, wireless service providers can only retrieve IMEI or MEID numbers, social network sites can only retrieve login user names corresponding to social network services, and so on. An encryption algorithm (eg, SSH-1 encryption algorithm) can provide the app publisher 110 with a copy of one or more encryption keys. In the illustrated example, the AME 108 provides an encryption algorithm and encryption key to the application issuer 110, and an encrypted software package or bundle that cannot be restored or extracted by the application issuer 110 (eg, the encryption device 202 in FIG. 2). As offered. In this way, the app issuer 110 cannot access the device / user identifier (s) 124. In another example, the app publisher 110 can access the device / user identifier (s) 124 if authorized by a user of the mobile device 106 (eg, during installation of the app program 116). In such an example, app publisher 110 may still encrypt device / user identifier (s) 124 before it is sent to AME 108.
[0045] In the illustrated example, the encryption algorithm is also provided with a corresponding encryption key of a partner database owner identifier and an encryption key for each of the partner database owners (eg, partner database owners 104a-b). The When encrypting the device / user identifier (s) 124, the encryption algorithm uses the encrypted device / user identifier (s) (eg, the encrypted device of FIG. 2) for the corresponding partner database owner identifier. / User identifier (s) 208a-b) can be added to the end, added to the head, concatenated or otherwise associated so that the AME 108 can decrypt the encrypted device / user identifier (s) It is possible to access the partner database owner identifier without encryption and to identify which of the encrypted device / user identifier (s) corresponds to which partner database owner. In this way, the AME 108 can identify the encrypted device / user identifier (s) corresponding to the partner database owner (s) even if the device / user identifier (s) 124 cannot be decrypted. Possible).
[0046] In some examples, the app publisher 110 may execute the encryption software on one of its servers or computers that has received the collected data 126 from the mobile device 106. In such an example, the media ID 122 and device / user identifier (s) 124 are collected by the mobile device 106 via a high security connection between the app publisher 110 and the encryption software running on the mobile device 106. Sent as. In this way, the device / user identifier (s) 124 is not intercepted by the app issuer 110 before being encrypted using encryption keys corresponding to different database owners.
[0047] In another example, encryption software is provided in the data collector 112 for encrypting the device / user identifier (s) 124 so that the data collector 112 can be used by the app publisher 110 (or The device / user identifier (s) 124 may be encrypted at the mobile device 106 before sending the encrypted device / user identifier (s) to the other collection entity. In some examples where the data collector 112 encrypts the device / user identifier (s) 124, the data collector 112 may also replace the encrypted device / user identifier (s) with an ACR ID (eg, ACR ID 128). Encode as you do. In such an example, data collector 112 sends ACR ID 128 and media ID 122 in the form of collection data 126 to app publisher 110 (or other collection entity).
[0048] After AME 108 receives ACR ID 128 including device / user identifier (s) 124 in encrypted form, AME 108 has been encrypted to the corresponding partner database owner (eg, partner database owner 104a-b). Send device / user identifier logs 136a-b. In the illustrated example, each of the encrypted device / user identifier logs 136a-b may include a single encrypted device / user identifier, or received over time from one or more mobile devices. May contain multiple collective encrypted device / user identifiers. After receiving the encrypted device / user identifier logs 136a-b, each of the partner database owners 104a-b copies its respective encrypted device / user identifier with a copy (s) of the encryption key (s). To decrypt. Partner database owners 104a-b then look up the users corresponding to the decrypted device / user identifiers and collect corresponding user information 102a-b for these users for sending to AME 108. For example, if partner database owner 104a is a wireless service provider, encrypted device / user identifier log 136a includes an IMEI number and the wireless service provider received in encrypted device / user identifier log 136a. Access its subscriber record to find a user with an IMEI number that matches the IMEI number. Once the user is identified, the wireless service provider copies the user's user information into the user information 102a for delivery to the AME 108.
[0049] FIG. 9 illustrates another alternative for collecting user information (eg, user information 102a and 102b) from the distributed database owners 104a and 104b for association with media impressions presented at the mobile device 106. An exemplary system 900 is shown. In the illustrated example of FIG. 9, the same reference numerals are used to indicate the same or similar components as described above in connection with FIG. In the illustrated example of FIG. 9, the data collector 912 is shown arranged in the application program 116. For example, the data collector 912 may include encoded instructions within the app program 116 for collecting data at the mobile device 106. Alternatively, the data collector 912 may be a single program downloaded separately from the application program 116 from the application publisher 110 as part of the application installation package 114.
[0050] In the illustrated example of FIG. 9, the data collector 912 is configured to collect the device / user identifier (s) 124 from the mobile device 106. The example data collector 912 sends the device / user identifier (s) 124 to the app publisher 110 in the form of collected data 126 and also further passes the device / user identifier (s) 124 to the media publisher 120. send. The data collector 912 in the illustrated example does not collect the media ID 122 from the media 118 in the mobile device 106 as the data collector 112 does in the exemplary system 100 of FIG. Instead, the media publisher 120 that issues the media 118 to the mobile device 106 takes out the media ID 122 from the media 118 that it issues. The media publisher 120 then associates the media ID 122 with the device / user identifier (s) 124 of the mobile device 106 and includes the media ID 122 and the associated device / user identifier (s) 124 of the mobile device 106. The collected data 902 is sent to the application issuer 110. For example, when media publisher 120 sends media 118 to mobile device 106, media publisher 120 uses one or more of device / user identifier (s) 124 to direct mobile device 106 to media 118. Do this by identifying the device. In this manner, the media publisher 120 associates the media ID 122 of the media 118 with the device / user identifier (s) 124 of the mobile device 106 for presentation (eg, to create an impression of the media 118). It can indicate that media 118 has been sent to the mobile device 106.
[0051] In the illustrated example, the app publisher 110 determines that the media ID 122 corresponds to the media (eg, media 118) presented on the mobile device 106 associated with the device / user identifier (s) 124. To do so, the device / user identifier (s) 124 from the collected data 902 is matched to the device / user identifier (s) 124 from the collected data 126. The illustrated example app publisher 110 also creates an ACR ID 128 based on the device / user identifier (s) 124 as disclosed herein. The app publisher 110 then sends impression data 130 to the AME 108 that includes the media ID 122 and the associated ACR ID 128. AME 108 may then send encrypted device / user identifier logs 136a-b to partner database owners 104a-b to request user information 102a-b as described above in connection with FIG. .
[0052] FIG. 10 shows yet another alternative for collecting user information (eg, user information 102a and 102b) from the distributed database owners 104a and 104b for association with media impressions presented at the mobile device 106. 1 illustrates an exemplary system 1000 of In the illustrated example of FIG. 10, the same reference numerals are used to indicate the same or similar components as described above in connection with FIG. In the illustrated example of FIG. 10, the data collector 1012 is shown arranged in the application program 116. For example, the data collector 1012 may include coded instructions in the app program 116 for collecting data at the mobile device 106. Alternatively, the data collector 1012 may be a single program downloaded separately from the app program 116 as part of the app install package 114 from the app publisher 110.
[0053] In the illustrated example of FIG. 10, data collector 1012 is configured to collect device / user identifier (s) 124 from mobile device 106. The example data collector 1012 sends the device / user identifier (s) 124 to the media publisher 120. The data collector 1012 in the illustrated example does not collect the media ID 122 from the media 118 in the mobile device 106 as the data collector 112 does in the exemplary system 100 of FIG. Instead, the media publisher 120 that issues the media 118 to the mobile device 106 takes out the media ID 122 from the media 118 that it issues. The media issuer 120 then associates this media ID 122 with the device / user identifier (s) 124 of the mobile device 106 and an ACR ID 128 based on the device / user identifier (s) 124 as disclosed herein. Create Media publisher 120 then sends media impression data 130 including media ID 122 and ACR ID 128 to AME 108. For example, when media publisher 120 sends media 118 to mobile device 106, media publisher 120 uses one or more of device / user identifier (s) 124 to cause mobile device 106 to address media 118. Do this by identifying the device. In this manner, the media publisher 120 associates the media ID 122 of the media 118 with the device / user identifier (s) 124 and ACR ID 128 of the mobile device 106 and creates an impression of the media 118 (eg, creating an impression of the media 118). For example, it can indicate that media 118 has been sent to the mobile device 106. In the illustrated example, after AME 108 receives impression data 130 from media publisher 120, AME 108 then encrypts the device / user identifier to request user information 102a-b as described above in connection with FIG. Logs 136a-b can be sent to partner database owners 104a-b.
[0054] Although the media publisher 120 is shown separately from the app publisher 110 of FIGS. 1, 9 and 10, at least one of the operations of the media publisher 120 to send the media 118 to the mobile device 106 for presentation. May be implemented by the app issuer 110. For example, an advertisement, content, or other media provider may allow an app publisher 110 to issue media (e.g., to run to the mobile device 106 via the app program 116 when running on the mobile device 106, for example. Media 118) may be sent. In such an example, the application publisher 110 implements the operation described above as being performed by the media publisher 120.
[0055] In some examples, the media publisher 120 operates as a third-party media publisher, unlike other conventional media publishers. In such an example, the media publisher 120 may track the electronic device (eg, mobile device 106) while tracking the media impressions of the published media (eg, media 118) and / or the identity of the device with which the media is published. Receiving media from a media supplier and / or other conventional media publishers for publishing to. That is, in addition to performing the traditional media issuer service of publishing media to an electronic device, the media publisher 120 in the illustrated example provides media impression tracking information as discussed above in connection with FIGS. Collect as an addition. Thus, in some examples, the media publisher 120 is conventional to provide media impression tracking functionality for collecting media impressions and user information (eg, user information 102a-b) as disclosed herein. A third party with a media publisher.
[0056] In addition to associating the media ID (eg, media ID 122) of the issued media with user information (eg, user information 102a-b), the examples disclosed herein may additionally or alternatively include It may be used to correlate information with other types of information indicative of user interests and / or user behavior collected from mobile devices. For example, the techniques disclosed herein may also be used to monitor search terms provided by a user on a mobile device and associate these search terms with user information of the user who provided the search terms. is there. Exemplary search terms may be provided via an app downloaded and installed on a mobile device to search for information on the Internet and / or products, websites, etc. in a store. For example, a search term may cause a search for information on the Internet, a search for a product, a search for a website, or a search for a website. An exemplary system that may be used for search term monitoring will be described below in connection with FIGS. In the illustrated example of FIGS. 12-14, the same reference numerals are used to indicate the same or similar components as described above in connection with FIG.
[0057] FIG. 12 illustrates user information (e.g. user Fig. 1 illustrates an exemplary system 1200 for collecting information 102a and 102b). In the example of FIG. 12 shown, the data collector 1206 is shown arranged in the application program 1204 downloaded from the application publisher 110 to the mobile device 106 in the form of an application installation package 1202. For example, the data collector 1206 may include encoded instructions in the app program 1204 for collecting data at the mobile device 106. Alternatively, the data collector 1206 may be a single program downloaded separately from the app program 1204 as part of the app install package 1202 from the app publisher 110.
[0058] In the illustrated example of FIG. 12, the application program 1204 provides a search function that allows the user to search for information, products, services, etc. on the Internet, for example. For example, the app program 1204 provides a search field 1208 for entering a search string that includes one or more search term (s) 1210 when executed on the mobile device 106. In order to provide the search function, the illustrated application program 1204 sends the search term (s) 1210 to the search service provider 1212. In this way, the search service provider 1212 executes the requested search and returns the search result to the application program 1204 in the mobile device 106. In the illustrated example, the search service provider 1212 can be an Internet search engine (eg, Google, Yahoo !, Bing, etc.), an Internet portal website, a retail store, etc.
[0059] When the user provides the search term (s) 1210 in the search field 1208, the data collector 1206 uses the search term (s) 1210 and the device / user identifier (s) 124 as collected data 1214 as an app publisher. To 110. App publisher 110 then creates ACR ID 128 using the exemplary techniques disclosed herein based on device / user identifier (s) 124 and uses search term (s) 1210 and ACR ID 128 as the user. It can be sent to the AME 108 as interest data 1216. In other examples, the data collector 1206 may be configured to send the search term (s) 1210 and the ACR ID 128 (or device / user identifier (s) 124) as user interest data 1216 directly to the AME 108. . AME 108 may then send encrypted device / user identifier logs 136a-b to partner database owners 104a-b to request user information 102a-b as described above in connection with FIG. .
[0060] FIG. 13 illustrates user information (e.g., user information 102a and 102b shows another exemplary system 1300 for collecting. In the illustrated example of FIG. 13, the data collector 1312 is shown arranged in the application program 1204. For example, the data collector 1312 may include encoded instructions in the app program 1204 for collecting data at the mobile device 106. Alternatively, the data collector 1312 may be a single program downloaded separately from the app program 1204 as part of the app install package 1202 from the app publisher 110.
In the illustrated example of FIG. 9, the data collector 1312 is configured to collect device / user identifier (s) 124 from the mobile device 106. The example data collector 1312 sends the device / user identifier (s) 124 to the app publisher 110 in the form of collected data 1214 and also sends the device / user identifier (s) 124 to the search provider 1212. send. The data collector 1312 in the illustrated example does not collect the search term 1210 from the search field 1208 in the mobile device 106 as the data collector 1206 does in the exemplary system 1200 of FIG. Instead, the search provider 1212 collects the search word (s) 1210 when received from the application program 1204. Search provider 1212 then associates search term (s) 1210 with device / user identifier (s) 124 of mobile device 106 and associated device / user of search term (s) 1210 and mobile device 106. Collected data 1302 including the identifier (s) 124 is sent to the app issuer 110. For example, when the mobile device 106 is serviced by the search provider 1212, the search provider 1212 identifies the mobile device 106 using one or several of the device / user identifier (s) 124. Do this. In this manner, the search provider 1212 associates the search term (s) 1210 with the device / user identifier (s) 124 of the mobile device 106 and indicates which search has been performed for the mobile device 106. Is possible.
[0062] In the illustrated example, the app publisher 110 determines that the search term (s) 1210 corresponds to a search provided for the mobile device 106 associated with the device / user identifier (s) 124. To match the device / user identifier (s) 124 from the collected data 1302 with the device / user identifier (s) 124 from the collected data 126. The illustrated example app publisher 110 also creates an ACR ID 128 based on the device / user identifier (s) 124 as disclosed herein. The app publisher 110 then sends user interest data 1216 to the AME 108 including the search term (s) 1210 and the ACR ID 128 associated with it. AME 108 may then send encrypted device / user identifier logs 136a-b to partner database owners 104a-b to request user information 102a-b as described above in connection with FIG. .
[0063] FIG. 14 illustrates collecting user information (eg, user information 102a and 102b) from the distributed database owners 104a and 104b for association with the search term (s) 1210 provided on the mobile device 106. Yet another example system 1400 is shown. In the example shown in FIG. 14, the data collector 1412 is shown arranged in the application program 1204. For example, the data collector 1412 may include coded instructions within the app program 1204 for collecting data at the mobile device 106. Alternatively, the data collector 1412 may be a single program downloaded separately from the app program 1204 from the app publisher 110 as part of the app install package 1202.
[0064] In the example shown in FIG. 14, the data collector 1412 is configured to collect the device / user identifier (s) 124 from the mobile device 106. The example data collector 1412 sends the device / user identifier (s) 124 to the search provider 1212. The data collector 1412 in the illustrated example does not collect the search term (s) 1210 from the search field 1208 in the mobile device 106 as the data collector 1206 does in the exemplary system 1200 of FIG. Instead, the search provider 1212 retrieves the search term (s) 1210 when received from the application program 1205 running on the mobile device 106. The search provider 1212 then associates the search term (s) 1210 with the device / user identifier (s) 124 of the mobile device 106 and the device / user identifier (s) 124 as disclosed herein. Based on this, an ACR ID 128 is created. Search provider 1212 then sends user interest data 1216 including search term (s) 1210 and ACR ID 128 to AME 108. For example, when the search provider 1212 provides a search service to the mobile device 106, the search provider 1212 identifies the mobile device 106 using one or several of the device / user identifier (s) 124. Do this. In this manner, the search provider 1212 associates the search term (s) 1210 with the device / user identifier (s) 124 and the ACR ID 128 of the mobile device 106 and the search has been performed for that mobile device 106. Indicates. In another example, the data collector 1412 at the mobile device 106 is configured to send the search term (s) 1210 and ACR ID 128 (or device / user identifier (s) 124) directly to the AME 108 as user interest data 1216. May be. In the illustrated example, after AME 108 receives user interest data 1216 from search provider 1212 (or from mobile device 106), AME 108 then requests user information 102a-b as described above in connection with FIG. For this purpose, encrypted device / user identifier logs 136a-b can be sent to partner database owners 104a-b.
[0065] Although search provider 1212 is shown separately from app publisher 110 in FIGS. 1, 9 and 10, at least some of search providers 1212 for receiving search term (s) 1210 from mobile device 106. May be implemented by the application issuer 110. For example, the data collector 1412 may send the search term (s) 1210 to the app issuer 110 so that the app issuer 110 can forward the search term (s) 1210 to the search provider. In such an example, the application publisher 110 implements at least a part of the operations described above as being executed by the search provider 1212.
[0066] FIG. 2 includes an encryptor 202 to encrypt the device and / or user identifier (eg, the device / user identifier (s) 124 of FIG. 1) and the encrypted device and / or FIG. 6 illustrates an example apparatus 200 having an encoder 204 to encode a user identifier into an application campaign rating (ACR) identifier (eg, ACR ID 128 of FIGS. 1, 9, 10, and 12-14). The illustrated example encryptor 202 includes different partner database owners (eg, FIGS. 1, 9, 10, and 12) that can collect their device / user identifiers 124 (FIGS. 1, 9, 10, and 12-14) from a mobile device. Encryption keys and partner database owner identifiers corresponding to -14 partner database owners 104a-b) are provided. In the illustrated example, the device and / or user identifier (eg, the device / user identifier (s) 124 of FIGS. 1, 9, 10 and 12-14) includes an IMEI / MEID number 124a, an Android ID 124b, and a MAC address 124c. And OpenUDID 124d, ODIN identifier 124e, login ID 124f, user agent data 124g, third party 1 ID 124h, and third party 2 ID 124i. In the illustrated example, the third party 1 ID 124h and / or the third party 2 ID 124i provides the targeted advertising service, web analytics service, user demographic information, and their unique identifiers (eg, third party 1 ID 124h and / or It can be an identifier for the service collected and stored in association with the third party 2 ID 124i). The cipherer 202 in the illustrated example uses the corresponding encryption key to encrypt the device / user identifier 124 to the corresponding encrypted device / user identifier 208a-i. In addition, the encryptor 202 also provides a corresponding partner database owner identifier to the corresponding identifier of the encrypted device / user identifier 208a-i (e.g., add end, add top or otherwise concatenate) AME 108 determines the partner database owner (eg, partner database owner 104a-b in FIGS. 1, 9, 10 and 12-14) to which the corresponding identifier of encrypted device / user identifiers 208a-i is sent. It is possible to specify. The encoder 204 in the illustrated example encodes the encrypted device / user identifiers 208a-i to ACR ID 128. The ACR ID 128 is then sent to the AME 108.
[0067] The example apparatus 200 is implemented in whole or in part on a mobile device 106 (FIGS. 1, 9, 10 and 12-14), and in whole or in part is an app publisher 110 (FIG. 1, 9, 10 and 12-14) (or other collection entity) and / or the media publisher 120 (FIGS. 1, 9 and 10) (or FIG. 12 to 14 search providers 1212). In some examples, the encryptor 202 and the encoder 204 both generate an ACR ID 128 and publish the application in the form of collected data 126 along with the media ID 122 (and / or search term (s) 1210). May be implemented in the mobile device 106 for delivery to the party 110 (or other collection entity). In other examples, the encryptor 202 may be implemented in the mobile device 106 and the encoder 204 is implemented in the app publisher 110 (or other collection entity), media publisher 120 and / or search provider 1212. May be. For example, the encryptor 202 may be provided in encrypted software downloaded to the mobile device 106 as part of the data collector 112. In this manner, the encryptor 202 encrypts the device / user identifier (s) 124 at the mobile device 106 and uses the encrypted device / user identifier (s) 208a-i as the app issuer 110 (or , Other collection entities), to the media publisher 120 and / or to the search provider 1212. The encoder 204 then transfers the encrypted device / user identifier (s) 208a-i at the app publisher 110 (or other collection entity), at the media publisher 120, and / or at the search provider 1212, with an ACR ID 128. Can be used to create an ACR ID 128, and the app publisher 110 (or other collection entity), media publisher 120 and / or search provider 1212 can be ACR ID 128 is sent to AME 108 along with media ID 122 (eg, as impression data 130 in FIGS. 1, 9 and 10) or search term (s) 1210 (eg, as user interest data 1216).
[0068] In other examples, app publisher 110 (or other collection entity), media publisher 120, and / or search provider 1212 are both implemented with an encryptor 202 and an encoder 204. In these other examples, app publisher 110 (or other collection entity), media publisher 120 and / or search provider 1212 receive device / user identifier (s) 124 from mobile device 106. App publisher 110 (or other collection entity), media publisher 120, and / or search provider 1212 create ACR ID 128 to include encrypted device / user identifier (s) 208a-i. . The app publisher 110 (or other collection entity), media publisher 120 and / or search provider 1212 can then have a media ID 122 (eg, as the impression data 130 of FIGS. 1, 9 and 10) or search term (s). ) ACR ID 128 may be sent to AME 108 along with 1210 (eg, as user interest data 1216 in FIGS. 12-14).
[0069] FIG. 3 decodes the encrypted device and / or user identifiers 208a-i (FIG. 2) from the ACR ID 128 of FIGS. 1, 2, 9, 10, and 12-14, and the encrypted device and The partner database owner 104a- corresponding one or several of the encrypted devices and / or user identifiers 208a-i to request user information 102a-e associated with the user identifiers 208a-i. 1 shows an exemplary device 300 for sending to e. The apparatus 300 in the illustrated example includes a decoder 302 for decoding encrypted devices and / or user identifiers 208a-i from ACR ID 128. In the illustrated example, the decoder 302 is implemented in the AME 108 of FIG. 1 (eg, in the server 132 of the AME 108). The decoder 302 in the illustrated example determines which of the partner database owners 104a-e corresponds to which of the encrypted device / user identifiers 208a-i, for example by the encryptor 202 of FIG. Determine based on the partner database owner identifier provided for identifiers 208a-i. The decoder 302 then sends the corresponding identifier of the encrypted device and / or user identifiers 208a-i to the corresponding partner database owner 104a-e.
[0070] FIG. 4 shows that the example apparatus 300 of FIG. 3 decodes the ACR ID 128 in an example where the ACR ID 128 has several empty fields that do not contain any encrypted device and / or user identifiers. . In the example shown in FIG. 4, the decoder 302 decodes the encrypted device and / or user identifiers 208a and 208h located in the ACR ID 128 and owns the encrypted device and / or user identifier 208a in the corresponding partner database. And sends the encrypted device and / or user identifier 208h to the corresponding partner database owner 208h. Thus, although FIG. 3 shows nine encrypted device and / or user identifiers 208a-i, in some examples, the ACR ID 128 contains the encrypted device and / or user identifier as in FIG. There are cases where the number is less than this (for example, less than 9). In yet another example, ten or more encrypted devices and / or user identifiers may be encoded to be ACR ID128.
[0071] Although an exemplary scheme for implementing apparatus 200 and apparatus 300 is illustrated in FIGS. 2-4, one or several of the elements, processes and / or devices illustrated in FIGS. It can be combined, divided, rearranged, omitted, eliminated and / or implemented in any way. Further, the exemplary encryptor 202, exemplary encoder 204, exemplary decoder 302 and / or more generally exemplary apparatus 200 and / or 300 may be hardware, software, firmware and / or hardware, software and / or It can be implemented using any combination of firmware. Thus, for example, any of the exemplary encryptor 202, exemplary encoder 204, exemplary decoder 302 and / or more generally exemplary apparatus 200 and / or 300 may be replaced with one or more analog or digital circuits. (Multiple), logic circuit (s), programmable processor (s), application specific integrated circuit (s) (ASIC (s)), programmable logic device (s) (PLD (s)) And / or can be implemented using field programmable logic device (s) (FPLD (s)), etc. In reading any of the apparatus or system claims of this patent intended to encompass pure software and / or firmware implementations, of the example cipher 202, the example encoder 204 and / or the example decoder 302 At least one of the present specification means a tangible computer-readable storage device or storage disk such as a memory storing software and / or firmware, a digital multipurpose disc (DVD), a compact disc (CD), a Blu-ray disc, etc. Explicitly specified to include. Further, the example apparatus 200 of FIG. 2 and / or the example apparatus 300 of FIGS. 3 and 4 may add or replace one or more elements, processes and / or devices to those shown in FIGS. And / or may include a plurality of any or all of the illustrated elements, processes and devices.
[0072] FIGS. 5, 11, 15, 6, and 7 use the examples disclosed herein to track media impressions and / or search terms and collect distributed user information regarding media impressions and / or search terms. FIG. 6 is a flow diagram representing machine readable instructions that may be executed as such. FIG. In the examples of FIGS. 5, 11, 15, 6 and 7, one or more for execution by one or more processors, such as processor 812 shown in exemplary computer 800 discussed below in connection with FIG. 2 illustrates operations and processes representing machine readable instructions including The program (s) is stored on a tangible computer readable storage medium such as a CD-ROM, floppy disk, hard drive, digital multipurpose disk (DVD), Blu-ray disk or memory associated with the processor 812. May be embedded in the form of stored software, but may be executed by a device other than processor (s), such as processor 812, as an alternative to the entire program (s) and / or portions thereof; and It is also possible to embed in the form of firmware or dedicated hardware. Further, while the exemplary program (s) is disclosed herein in connection with the illustrated examples of FIGS. 5, 11, 15, 6 and 7, the exemplary apparatus 200 disclosed herein as an alternative. And many other ways of implementing the 300 and 300 can be used. For example, the order of execution of processes and / or operations can be changed, and / or some of the processes and / or operations disclosed herein can be changed, eliminated, or combined.
[0073] As noted above, the exemplary processes and / or operations of FIGS. 5, 11, 15, 6 and 7 may be performed within them for any period of time (eg, for a long time, permanently, for a very short time). Hard disk drive, flash memory, read only memory (ROM), compact disk (CD), digital multipurpose disk (DVD), cache, random, storing information (during temporary buffering and / or information caching) Using coded instructions (eg, instructions readable by a computer and / or machine) stored on a tangible computer readable storage medium such as access memory (RAM) and / or any other storage device or storage disk Can be implemented. The term tangible computer readable storage media as used herein includes any type of computer readable storage devices and / or storage disks and is explicitly excluded to exclude propagating signals and transmission media. Stipulate. As used herein, “tangible computer readable storage medium” and “tangible machine readable storage medium” can be used interchangeably. In addition or alternatively, the exemplary processes and / or operations of FIGS. 5, 11, 15, 6 and 7 may be used to store temporary buffers within them for any period of time (eg, long-term, permanently, very short). Hard disk drive, flash memory, read-only memory, compact disk, digital multipurpose disk, cache, random access memory and / or any other storage device or storage disk that stores information (during the ring and / or during information caching) Can be implemented using coded instructions (eg, computer and / or machine readable instructions) stored on a non-transitory computer and / or machine readable medium such as. As used herein, a non-transitory computer readable medium includes any type of computer readable storage device and / or storage disk and explicitly excludes propagating signals and transmission media. Stipulate. As used herein, the expression “at least” is used as a transitional phrase in the preamble of a claim and the term “comprising” is non-limiting. In the same sense, this is also non-limiting.
[0074] FIG. 5 illustrates a media identifier (eg, media ID 122 of FIG. 1) and device and / or user identifier (eg, device / user identifier of FIGS. 1 and 2) on a mobile device (eg, mobile device 106 of FIG. 1). 124) is a flow diagram of an exemplary process that may be used to collect. In some instances, instead of or in addition to collecting media identifiers, the exemplary process of FIG. 5 may additionally or alternatively to collect search terms (eg, search term (s) 1210 of FIG. 12). May be used as In the illustrated example, the exemplary process of FIG. However, the exemplary process of FIG. 5 may be performed on any other device.
[0075] First, the data collector 112 (FIG. 1) determines whether to collect data (block 502). For example, the application program 116 (FIG. 1) may indicate that the application program 116 is presenting media (eg, media 118 of FIG. 1) or one or more search term (s) (eg, the searches of FIGS. 12-14). When the word (s) 1210) are received, the data collector 112 may be triggered to collect data. If data collector 112 determines that data should be collected at block 502, data collector 112 retrieves media ID 122 and / or search term (s) 1210 from media 118 (block 504). The data collector 112 also collects one or several of the device / user identifier (s) 124 from the mobile device 106 (block 506). The data collector 112 collects the media ID 122 and / or the search term (s) 1210 and the device / user identifier (s) 124 in a collected data message (eg, collected data 126 in FIG. 1 and / or collected data 1214 in FIG. 12). Within (block 508). The data collector 112 sends the media ID 122 and / or the search term (s) 1210 and the device / user identifier (s) 124 to the collection entity (block 510). For example, the data collector 112 may issue the application of FIG. 1 with the media ID 122 and / or search term (s) 1210 and the device / user identifier (s) 124 as collected data 126 (FIG. 1) and / or 1214 (FIG. 12). To the person 110. The example process of FIG. 5 then ends.
[0076] In some examples, such as where the encryptor 202 of FIG. 2 is provided in the data collector 112, the encryptor 202 encrypts the device / user identifier (s) 124 at block 508, and FIG. Create one or several of the encrypted device / user identifier (s) 208a-i. In some such examples, the data collector 112 collects the encrypted device / user identifier (s) 208a-i and the media ID 122 and / or search term (s) 1210 at block 508 with the collected data 126 and / or Locate within 1214. In some examples, where encoder 204 is also provided in data collector 112, encoder 204 encodes block 508 to have encrypted device / user identifier (s) 208 a-i as ACR ID 128. As a result, the ACR ID 128 shown in FIGS. In some such examples, the data collector 112 locates the ACR ID 128 and the media ID 122 and / or search term (s) 1210 in the collected data 126 and / or 1214 at block 508. An exemplary process that may be used to encrypt the device / user identifier (s) 124 and encode the encrypted device / user identifiers 208a-i will be described below in connection with FIG. .
[0077] FIG. 11 illustrates media identifiers (eg, media ID 122 of FIGS. 1, 9 and 10) and device and / or user identifiers (eg, device / user identifier (s) 124 of FIGS. 1, 9 and 10). 11 is an example process flow diagram that may be used to collect at a media publisher (eg, media publisher 120 of FIGS. 1, 9, and 10). In the illustrated example, the example process of FIG. 11 is performed by a processor system (eg, a server) at media publisher 120 connected to example system 900 of FIG. 9 and / or example system 1000 of FIG. . However, the exemplary process of FIG. 11 can be performed by any other device.
[0078] First, the media publisher 120 receives the device / user identifier (s) 124 from, for example, the data collector 912 of FIG. 9 or the data collector 1012 of FIG. 10 (block 1102). For example, media publisher 120 may receive device / user identifier (s) 124 in the HTTP header of the HTTP request from mobile device 106. The media publisher 120 determines, for example, whether to distribute media (eg, media 118 of FIGS. 9 and 10) to the mobile device 106 (block 1104). For example, the media publisher 120 may receive a media distribution request from the mobile device 106 created by the app program 116 when executed on the mobile device 106. In the illustrated example, the media distribution request is a request for distributing to the mobile device 106 an advertisement or other media to be presented while the application program 116 is running. In some examples, the media delivery request is received at block 1102 when the media publisher 120 receives the device / user identifier (s) 124. For example, media publisher 120 may receive a media delivery request from mobile device 106 in the form of an HTTP request that includes device / user identifier (s) 124 in an HTTP header.
[0079] When the media publisher 120 determines that the media (eg, media 118) should be distributed at block 1104, the media publisher 120 retrieves the media ID 122 from the media 118 to be distributed (block 1106). Media publisher 120 distributes media 118 (block 1108). For example, media publisher 120 may use one or several of device / user identifier (s) 124 received at block 1102 to identify mobile device 106 as a receiving device for distribution media 118. is there. The media publisher 120 locates the media ID 122 and device / user identifier (s) 124 in the message (block 1110). For example, in the exemplary system 900 of FIG. 9, media publisher 120 locates media ID 122 and device / user identifier (s) 124 in collection data message 902. In the example system 1000 of FIG. 10 in which the apparatus 200 of FIG. 2 is alternatively implemented at the media publisher 120, the media publisher 120 uses the ACR ID 128 (see FIG. 10 and 2), and the media ID 122 and ACR ID 128 are placed in the impression data 130 in block 1110. The media issuer 120 sends the media ID 122 and the device / user identifier (s) 124 to the app issuer 110 as, for example, collected data 902 as shown in FIG. 9, or as impression data 130 as shown in FIG. Send to AME 108 (block 1112). The example process of FIG. 11 then ends.
[0080] FIG. 15 illustrates a search term (eg, the search term (s) 1210 of FIGS. 12-14) and device and / or user identifiers (eg, search provider 1212 of FIGS. 12-14). FIG. 15 is a flow diagram of an example process that may be performed to collect, for example, the device / user identifier 124) of FIGS. In the illustrated example, the exemplary process of FIG. 15 is performed by a processor system (eg, a server) at search provider 1212 connected to exemplary system 1300 of FIG. 13 and / or exemplary system 1400 of FIG. However, the exemplary process of FIG. 15 may be performed by any other device.
[0081] First, the search provider 1212 receives the device / user identifier (s) 124 from, for example, the data collector 1312 of FIG. 13 or the data collector 1412 of FIG. 14 (block 1502). For example, search provider 1212 may receive device / user identifier (s) 124 in the HTTP header of an HTTP request from mobile device 106. Search provider 1212 receives search term (s) 1210 from app program 1204 (block 1504). Search provider 1212 distributes search results 1506 (block 1506). For example, the search provider 1212 may use one or several of the device / user identifier (s) 124 received at block 1502 to identify the mobile device 106 as the search result receiving device. . The search provider 1212 locates the search term (s) 1210 and device / user identifier (s) 124 in the message (block 1508). For example, in the exemplary system 1300 of FIG. 13, the search provider 1212 locates the search term (s) 1210 and the device / user identifier (s) 124 in the collected data message 1302. In the example system 1400 of FIG. 14 where the apparatus 200 of FIG. 2 is alternatively implemented at the search provider 1212, the search provider 1212 may have an ACR ID 128 (FIG. 14) based on the device / user identifier (s) 124. 2) and the search term (s) 1210 and ACR ID 128 are located in the user interest data 1216 at block 1508. The search provider 1212 sends the search term (s) 1210 and the device / user identifier (s) 124 to the app publisher 110 as collection data 1302 as shown in FIG. 13, for example, or as shown in FIG. It is sent to the AME 108 as user interest data 1216 (block 1510). The exemplary process of FIG. 15 then ends.
[0082] FIG. 6 encrypts a device and / or user identifier (eg, device / user identifier (s) 124 of FIGS. 1 and 2) and an encrypted device and / or user identifier (eg, FIG. 5 is a flow diagram of an exemplary process for encoding 2-4 encrypted device / user identifier (s) 208a-i) to ACR ID 128 of FIGS. 1-4. The example process of FIG. 6 is performed in whole or in part on the app publisher 110 (or another collection entity) of FIGS. (Eg, at block 508 of the example process of FIG. 5), all or part of it is performed at the media publisher 120 of FIGS. 1, 9 and 10, and / or all or Some of them may be executed by the search provider 1212 of FIGS. In some examples, operations performed by the encryptor 202 (FIG. 2) may be performed at the mobile device 106 and operations performed by the encoder 204 (FIG. 2) are performed at the app publisher 110 at the media issuer. May be performed at the operator 120 and / or at the search provider 1212.
[0083] Initially, the encryptor 202 (FIG. 2) receives one or several of the device / user identifier (s) 124 (FIGS. 1 and 2) (block 602). The encryptor 202 encrypts the device / user identifier (s) 124 (block 604) and creates encrypted device / user identifier (s) 208a-i (FIG. 2). In the illustrated example, the encryptor 202 can, for example, encrypt the device / user so that the partner database owner identifier can access the AME 108 without decrypting the encrypted device / user identifier (s) 208a-i. Appending the partner database owner identifier to identifier identifier (s) 208a-i, appending, concatenating or otherwise associating the corresponding partner database owner identifier with the encrypted device / user identifier (s) ) To the corresponding identifier of 208a-i (block 606). Encoder 204 (FIG. 2) encodes encrypted device / user identifier (s) 208a-i to ACR ID 128 (block 608). In the illustrated example, encoder 204 associates ACR ID 128 with corresponding media ID 122 and / or search term (s) 1210 (block 610). Encoder 204 sends ACR ID 128 and media ID 122 and / or search term (s) 1210 to AME 108, for example, in the form of impression data 130 (FIGS. 1, 9 and 10) (block 612). In some examples, media ID 112 and / or search term (s) 1210 are encrypted prior to transmission. The example process of FIG. 6 then ends.
[0084] FIG. 7 decodes the encrypted device and / or user identifier (eg, encrypted device / user identifier 208a-i of FIGS. 2-4) from the ACR ID 128 of FIGS. Encrypted device and / or user identifier from one or more corresponding partner database owner (s) (eg, one or several of partner database owners 102a-e of FIGS. 1, 3 and 4) 5 is a flow diagram of an example process that may be used to collect user information associated with The example process of FIG. 7 may be performed at AME 108 (FIG. 1), for example, by server 132 (FIG. 1).
[0085] First, the server 132 receives the ACR ID 128 and the associated media ID 122 and / or search term (s) 1210 (block 702). For example, the server 132 may receive the ACR ID 128 and the media ID 122 in the form of impression data 130 from the app publisher 110, from the media publisher 120, and / or from the mobile device 106 of FIGS. Additionally or alternatively, the server 132 may provide the ACR ID 128 and search term (s) 1210 in the form of user interest data 1216 from the app publisher 110, from the search provider 1212, and / or the mobile device 106 of FIGS. May receive from. The decoder 302 (FIGS. 3 and 4) decodes one or several of the encrypted device / user identifier (s) 208a-i from the ACR ID 128 (block 704). The decoder 302 owns the partner database provided to or associated with the encrypted device / user identifier 208a-i, for example, by the encryptor 202 of FIG. 2 at block 606 of FIG. Based on the party identifier, the corresponding identifier of encrypted device / user identifier (s) 208a-i is sent to the corresponding identifier of partner database owner (s) 102a-e (block 706). . Server 132 receives one or several of user information 102a-e from one or several of partner database owner (s) 102a-e (block 708). Server 132 logs a media impression for media ID 122 (block 710). In addition, the server 132 associates user information from at least one of the one or more user information 102a-e with the impression logged for the media ID 122 and / or search term (s) 1210 (block 712). ). The exemplary process of FIG. 7 then ends.
[0086] FIG. 8 is a block diagram of an exemplary computer 800 capable of causing the instructions of FIGS. 5-7, 11 and 15 to be executed. The computer 800 can be, for example, a server, a personal computer, or any other type of computing device. The illustrated example system 800 includes a processor 812. For example, the processor 812 can be implemented by one or more microprocessors or controllers from any desired family or manufacturer.
[0087] The processor 812 includes a local memory 813 (eg, a cache) and communicates with a main memory including a volatile memory 814 and a non-volatile memory 816 via a bus 818. Volatile memory 814 may be implemented by synchronous dynamic random access memory (SDRAM), dynamic random access memory (DRAM), RAMBUS dynamic random access memory (RDRAM), and / or any other type of random access memory device. There is. Non-volatile memory 816 may be implemented by flash memory and / or any other desired type of memory device. Access to the main memories 814 and 816 is controlled by a memory controller.
[0088] The computer 800 also includes an interface circuit 820. The interface circuit 820 may be implemented by any type of interface standard such as an Ethernet interface, a universal serial bus (USB), and / or a PCI express interface.
[0089] One or more input devices 822 are connected to the interface circuit 820. Input device (s) 822 allows a user to enter data and commands into processor 812. The input device (s) can be implemented by, for example, a keyboard, mouse, touch screen, trackpad, trackball, isopoint and / or voice recognition system.
[0090] One or more output devices 824 are also connected to the interface circuit 820. The output device 824 can be implemented by, for example, a display device (eg, a liquid crystal display, a cathode ray tube display (CRT), a printer, and / or a speaker). The interface circuit 820 therefore typically includes a graphics driver card.
[0091] The interface circuit 820 also facilitates data exchange with an external computer via a network 826 (eg, Ethernet connection, digital subscriber line (DSL), telephone line, coaxial cable, cellular phone system, etc.). Communication devices such as modems and network interface cards.
[0092] The computer 800 also includes one or more mass storage devices 828 for storing software and data. Examples of such mass storage devices 828 include floppy disk drives, hard drive disks, compact disk drives, and digital multipurpose disk (DVD) drives.
[0093] Coded instructions 832 representing the machine-readable instructions of FIGS. 5-7, 11 and 15 are stored in mass storage device 828, volatile memory 814, non-volatile memory 816, and / or CD, DVD, etc. May be stored in a removable storage medium.
[0094] Although certain exemplary methods, devices, and products are disclosed herein, the scope of coverage of this patent is not limited thereto. Rather, this patent is intended to cover all methods, devices and products reasonably within the scope of the claims of this patent.
[Example of invention]
Receiving a media identifier and a plurality of encrypted identifiers collected at a mobile device, wherein the encrypted identifier identifies at least one of the mobile device or a user of the mobile device; and the media identifier Indicates the media presented on the mobile device, and
Sending a first identifier of the encrypted identifiers to a first database owner associated with the first identifier of the encrypted identifiers;
Sending a second of the encrypted identifiers to a second database owner associated with the second identifier of the encrypted identifiers;
Receiving from the first database owner first user information associated with the first identifier of the encrypted identifiers;
Receiving from the second database owner second user information associated with the second identifier of the encrypted identifiers;
Associating at least one of the first user information or the second user information with a media impression logged for the media identifier;
The first database owner is a social network service, the first encrypted identifier is a user name of a user registered in the social network service, and the first user information is the user And the demographic information stored by the social network service.
The second database owner is a wireless service provider of the mobile device, and the second encrypted identifier identifies the mobile device and sends the second user information to the user of the mobile device. Example 2 in which the device identifier used by the wireless service provider to associate and the second user information is demographic information corresponding to the user and stored by the wireless service provider The method described.
The method of example 1, wherein the step of receiving the plurality of encrypted identifiers includes a sub-step of receiving the plurality of encrypted identifiers encoded in a single identifier from the mobile device.
Receiving the plurality of encrypted identifiers includes substeps of receiving a database owner identifier in association with a corresponding identifier of the encrypted identifiers;
The first identifier of the encrypted identifiers is associated with the first identifier of the encrypted identifiers and is the first of the database owner identifiers indicating the first database owner. Determining to send to the first database owner based on an identifier of 1;
The second identifier of the encrypted identifiers is associated with the second identifier of the encrypted identifiers and the second of the database owner identifiers indicating the second database owner. Determining to send to the second database owner based on two identifiers;
The method of Example 1, further comprising:
Obtaining an encrypted identifier identifying at least one of the mobile device or a user of the mobile device;
A decoder for sending each of the encrypted identifiers to a corresponding database owner;
Receiving user information corresponding to the respective identifiers of the encrypted identifiers from the corresponding database owner;
A server that collects the user information on the mobile device and associates it with a search term;
The apparatus of example 6, the decoder further decodes information from a mobile device into the respective identifier of the encrypted identifier.
The apparatus of example 6, wherein the server is separate from and in communication with the mobile device.
The database owner includes a social network service and a wireless service provider, the first identifier of the encrypted identifiers includes a username of a user registered with the social network service, and the encrypted identifier The apparatus of example 6, wherein a second identifier of the device includes a device identifier used by the wireless service provider to identify the mobile device.
In Example 9, the user information includes first demographic information of the user stored by the social network service and second demographic information of the user stored by the wireless service provider. The device described.
The search term according to example 6, wherein the search term corresponds to a search performed on the mobile device for at least one of an information search on the internet, a search for a product, a search for a website or a search for a website. apparatus.
The decoder sends the encrypted identifier to the corresponding database owner based on a respective database owner identifier received in association with a corresponding one of the encrypted identifiers; The apparatus of example 6, wherein a database owner identifier identifies a corresponding owner of the database owners.
A machine-accessible storage medium comprising instructions, said instructions being at least for the machine when executed,
Sending each of the encrypted identifiers to a corresponding database owner;
Receiving user information corresponding to the respective identifier of the encrypted identifier from the corresponding database owner;
Associating the user information with at least one of a search term collected at the mobile device or a media impression logged for media presented at the mobile device;
A machine-accessible storage medium.
The machine-accessible storage medium of example 13, wherein the machine is a server separate from the mobile device and in communication with the mobile device.
The machine-accessible storage medium of example 13, wherein the instructions cause the machine to decode information from a mobile device into the respective identifier of the encrypted identifier.
The database owner includes a social network service and a wireless service provider, the first identifier of the encrypted identifiers includes a username of a user registered with the social network service, and the encrypted identifier The machine-accessible storage medium of example 13, wherein a second identifier of the device includes a device identifier used by the wireless service provider to identify the mobile device.
In example 16, the user information includes first user demographic information stored by the social network service and second user demographic information stored by the wireless service provider. The machine-accessible storage medium described.
The media is an advertisement and the search term is a search performed on the mobile device for at least one of an information search on the Internet, a search for a product, a search for a website, or a search for a website. Corresponding machine-accessible storage medium according to example 13.
The instructions cause the machine to send the encrypted identifier to the corresponding database owner based on each database owner identifier received in association with the corresponding identifier of the encrypted identifiers. The machine-accessible storage medium of example 13, wherein each database owner identifier identifies a corresponding owner of the database owners.
A method of monitoring mobile device usage,
Installing an application having a data collector on a mobile device;
Collecting a media identifier via the data collector, wherein the media identifier indicates media presented at the mobile device;
Encrypting a user identifier identifying a user of the mobile device, wherein the encryption of the user identifier corresponds to a first database owner having first user information associated with the user identifier A step based on a first encryption key;
Encrypting a device identifier identifying the mobile device, wherein the encryption of the device identifier corresponds to a second database owner having second user information associated with the device identifier. A step based on an encryption key; and
Sending the encrypted user identifier, the encrypted device identifier and the media identifier to a data collection server;
Further comprising encoding the encrypted user identifier and the encrypted device identifier into a single identifier, wherein the encrypted user identifier and the encrypted device identifier are sent to the data collection server. 21. The method of example 20, wherein the step includes a sub-step of sending the single identifier to the data collection server.
Associating a first database owner identifier with the encrypted user identifier; and associating a second database owner identifier with the encrypted device identifier; The user identifier indicates the encrypted user identifier corresponding to the first database owner, and the second database owner identifier indicates the encrypted device identifier corresponding to the second database owner. The method of Example 20, shown.
21. The method of example 20, wherein the first database owner is a social network service and the second database owner is a wireless service provider.
21. The method of example 20, wherein the first and second user information includes demographic information collected from the user of the mobile device by the first and second database owners.
[Example 25]
A device that tracks the use of a mobile device,
Applications installed on mobile devices,
A data collector for providing within the mobile device via the application;
For the data collector,
Collecting search terms indicative of a search requested via the mobile device;
Encrypting a user identifier identifying a user of the mobile device, wherein the encryption of the user identifier corresponds to a first database owner having first user information associated with the user identifier. A step based on an encryption key of 1;
Sending the encrypted user identifier, the encrypted device identifier and the search term to a data collection server;
A processor that executes
[Example 26]
The apparatus of example 25, wherein the search term is encrypted.
[Example 27]
The encryption by the data collector encoding the encrypted user identifier and the encrypted device identifier into a single identifier, and the data collector sending the single identifier to the data collection server 26. The apparatus of example 25, wherein the sent user identifier and the encrypted device identifier are sent to the data collection server.
[Example 28]
28. The apparatus of example 27, wherein the data collector encodes the search term as part of the single identifier.
[Example 29]
The data collector associates a first database owner identifier with the encrypted user identifier and a second database owner identifier with the encrypted device identifier; the first database owner identifier Indicates the encrypted user identifier corresponding to the first database owner, and the second database owner identifier indicates the encrypted device identifier corresponding to the second database owner The device of Example 25.
[Example 30]
The apparatus of example 25, wherein the first database owner is a social network service and the second database owner is a wireless service provider.
[Example 31]
The apparatus of example 25, wherein the search term is a word entered on the mobile device for at least one of an information search on the internet, a search for a product, a search for a website, or a search for a website. .
[Example 32]
Collecting at least one of a media identifier or a search term, wherein the media identifier indicates media presented at a mobile device, and the search term indicates a search requested via the mobile device When,
Encrypting a user identifier identifying a user of the mobile device, wherein the encryption of the user identifier is based on a first encryption key corresponding to a first database owner;
Encrypting a device identifier identifying the mobile device, wherein the encryption of the device identifier is based on a second encryption key corresponding to a second database owner;
Sending the encrypted user identifier, the encrypted device identifier, and at least one of the media identifier or the search term to a data collection server;
[Example 33]
The machine-accessible storage medium of example 32, wherein the machine is a server separate from the mobile device and in communication with the mobile device.
[Example 34]
The instructions perform, for the machine, associating a first database owner identifier with the encrypted user identifier and associating a second database owner identifier with the encrypted device identifier. A machine-accessible storage medium as described in Example 32.
[Example 35]
The machine-accessible storage medium of example 32, wherein the first database owner is a social network service and the second database owner is a wireless service provider.
[Example 36]
The media is an advertisement and the search term is a word entered on the mobile device for at least one of an information search on the internet, a search for a product, a search for a website or a search for a website A machine-accessible storage medium as described in Example 32.
Obtaining an encrypted identifier identifying at least one of a device or a user of the device;
Associating the user information with at least one of a search term collected at the device or a media impression logged for media presented at the device;
Obtaining the encrypted identifier, sending the respective identifiers of the encrypted identifiers, receiving the user information, and obtaining the user information from the search term or the media impression. The method of claim 1, wherein the step of associating with at least one is performed on a server separate from the device and in communication with the device.
The method of claim 1, further comprising decoding information from the device to obtain the respective identifier of the encrypted identifier.
The database owner includes a social network service and a wireless service provider, a first identifier of the encrypted identifiers includes a user name of the user registered in the social network service, and the encrypted The method of claim 1, wherein a second of the identifiers comprises a device identifier used by the wireless service provider to identify the device.
The user information includes: first demographic information of the user stored by the social network service; and second demographic information of the user stored by the wireless service provider. The method described in 1.
The media is an advertisement and the search term corresponds to a search performed on the device for at least one of an information search on the internet, a search for a product, a search for a website, or a search for a website The method of claim 1.
Sending the encrypted identifier to the corresponding database owner based on a respective database owner identifier received in association with a corresponding one of the encrypted identifiers, the owner of the respective database The method of claim 1, further comprising the step of identifying an owner identifier corresponding to the database owner.
The method of claim 1, wherein the device is a mobile device.
Memory containing machine-executable instructions;
A processor, executing the instructions,
The apparatus of claim 9, wherein the processor is located in a server separate from the device and in communication with the device.
The database owner includes a social network service and a wireless service provider, a first identifier of the encrypted identifiers includes a user name of the user registered in the social network service, and the encrypted The apparatus of claim 9, wherein a second of the identifiers comprises a device identifier used by the wireless service provider to identify the device.
12. The user information includes first demographic information of the user stored by the social network service and second demographic information of the user stored by the wireless service provider. The device described in 1.
The media is an advertisement and the search term corresponds to a search performed on the device for at least one of an information search on the Internet, a search for a product, a search for a website, or a search for a website The apparatus of claim 9.
The processor executes the instructions to send the encrypted identifier to the corresponding database owner based on each database owner identifier received in association with the corresponding identifier of the encrypted identifiers. 10. The apparatus of claim 9, wherein the apparatus is configured to perform the steps of: wherein each database owner identifier identifies a corresponding owner of the database owners.
The machine-accessible storage medium of claim 15, wherein the machine is a server that is separate from the device and communicates with the device.
The database owner includes a social network service and a wireless service provider, a first identifier of the encrypted identifiers includes a user name of the user registered in the social network service, and the encrypted The machine-accessible storage medium of claim 15, wherein a second of the identifiers comprises a device identifier used by the wireless service provider to identify the device.
18. The user information includes first demographic information of the user stored by the social network service and second demographic information of the user stored by the wireless service provider. A machine-accessible storage medium as described in 1.
The media is an advertisement and the search term corresponds to a search performed on the device for at least one of an information search on the internet, a search for a product, a search for a website, or a search for a website The machine-accessible storage medium according to claim 15.
The instructions send the encrypted identifier to the corresponding database owner based on a respective database owner identifier received in association with the corresponding one of the encrypted identifiers to the machine. The machine-accessible storage medium of claim 15, wherein the step is performed wherein the respective database owner identifier identifies a corresponding owner of the database owners.
JP2016051033A 2012-08-30 2016-03-15 Method, apparatus and machine-accessible storage medium for collecting distributed user information regarding media impressions and search terms Active JP6366196B2 (en)
US201261695169P true 2012-08-30 2012-08-30
US61/695,169 2012-08-30
US201261697597P true 2012-09-06 2012-09-06
US61/697,597 2012-09-06
AU2013204953A AU2013204953B2 (en) 2012-08-30 2013-04-12 Methods and apparatus to collect distributed user information for media impressions
AU2013204953 2013-04-12
JP2015524512 Division 2013-08-28
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JP6366196B2 JP6366196B2 (en) 2018-08-01
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JP2016051033A Active JP6366196B2 (en) 2012-08-30 2016-03-15 Method, apparatus and machine-accessible storage medium for collecting distributed user information regarding media impressions and search terms
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