Patent Description:
Privacy is a concern for guests staying in hotels or any commercial residential premises. Many a time privacy of a guest may be breached by a hotel personnel like the house keeping staff or any such another person. To avoid such intrusion, the hotels give guests/users the option of using a "do-not-disturb" tag outside the door or physically turning on the privacy knob of the door.

Placing the "do-not-disturb" tag at the lock of the room is a manual process and requires efforts from the user. At times, the user may forget to put the do-not-disturb tag which may result in disturbing the user or putting the user in an awkward situation. At present, there does not exist any solution for automatically indicating not to disturb the user inside the room or for automatically indicating outside the room that the user in the room is currently busy. Also, there does not exist any solution for automatically determining if the user inside the room is busy.

In view of the aforementioned problems in the existing solutions, there is a need for an effective solution for automatically determining if a user inside a room is busy. There is also a requirement for an effective solution for automatically indicating that a user present inside a room is currently busy. In order to solve the problems in the existing solutions, a user device, a system and a method are disclosed.

<CIT> discloses a plurality of devices including intelligent devices that communicate with each other and/or with a central server to provide a variety of smart home objectives.

<CIT> discloses a wearable apparatus for controlling a controllable device.

According to a first aspect of the invention a user device for triggering a privacy status of a lock is provided. The user device comprises a detection unit adapted to capture activity information of a user. The user device also comprises an analyzer adapted to analyze the captured activity information and determine a busy status of the user based on the analysis. The user device comprises a communication unit adapted to transmit the busy status of the user to a lock for activating a privacy status of the lock when the analyzer determines the busy status of the user, the activation of the privacy status being for restricting other users from accessing the premises and/or indicating the busy status of the user. The user device is adapted to provide a notification to the user for activating the privacy status before transmitting the busy status to the lock.

Optionally, the detection unit captures the activity information automatically using one or more sensors placed inside or outside the user device.

Optionally, the activity information comprises gestures by the user applied on the user device.

Optionally, the gestures comprise moving the user device by the user in a predefined manner, wherein the user provides gestures when the user is busy.

Optionally, the analyzer is adapted to determine the busy status associated with the user when the user device is set in do-not-disturb mode.

Optionally, the analyzer is adapted to determine the busy status associated with the user based on sleeping activity information of the user using an accelerometer of the user device or sound waves emitted by the user device.

Optionally, the lock receives the busy status from an occupancy sensor. The occupancy sensor may determine the busy status associated with the user based on an occupancy activity information of the user.

Optionally, the lock is located on a door of a premises and the user is present inside the premises.

Optionally, the lock activates the privacy status by providing a notification to other users accessing a premises to alert the other users regarding the busy status of the user using voice alert and/or light emitting diode (LED) indicator.

Optionally, the user device is adapted to receive a time duration from the user for activating the privacy status during the time duration specified by the user.

Optionally, the lock receives the time duration from the user device for activating the privacy status, wherein the lock comprises an interface to display time left for expiration of the time duration.

Optionally, the activation of the privacy status of the lock comprises engaging a privacy knob with the lock.

According to a second aspect of the invention a method for triggering a privacy status of a lock is provided. The method comprises steps of capturing activity information of a user by a user device. The method also comprises steps of analyzing, by the user device, the captured activity information and determining, by the user device, a busy status of the user based on the analysis. The method further comprises steps of transmitting, by the user device, the busy status of the user to a lock for activating a privacy status of the lock when the user device determines the busy status of the user, the activation of the privacy status being for restricting other users from accessing the premises and/or indicating the busy status of the user. The user device is adapted to provide a notification to the user for activating the privacy status before transmitting the busy status to the lock.

Optionally, the user device captures the activity information automatically using one or more sensors placed inside or outside the user device.

Optionally, the activity information comprises gestures by the user applied on the user device. The gestures may comprise moving the user device by the user in a predefined manner.

Optionally, the user device determines the busy status associated with the user when the user device is set in do-not-disturb mode.

Optionally, the user device is adapted to determine the busy status associated with the user based on sleeping activity information of the user using an accelerometer of the user device or sound waves emitted by the user device.

Optionally, the lock is located on a door of a premises and the user is present inside the premises. Also, the lock may activate the privacy status by providing a notification to other users accessing a premises to alert other users regarding the busy status of the user using voice alert and/or light emitting diode (LED) indicator.

According to a third aspect of the invention, a system is disclosed for triggering a privacy status of a lock. The system comprises a user device and a lock. The user device comprises a detection unit adapted to capture activity information of a user and an analyzer adapted to analyze the captured activity information and to determine a busy status of the user based on the analysis. The user device also comprises a communication unit adapted to transmit the busy status of the user to a lock for activating a privacy status of the lock when the analyzer determines the busy status of the user, the activation of the privacy status being for restricting other users from accessing the premises and/or indicating the busy status of the user. The user device is adapted to provide a notification to the user for activating the privacy status before transmitting the busy status to the lock. The lock comprises a receiver adapted to receive the busy status of the user from the user device and an activation unit adapted to activate the privacy status of the lock based on the busy status of the user.

Optionally, the lock is adapted to receive a time duration specified by the user from the user device for activating the privacy status, wherein the lock comprises an interface to display time left for expiration of the time duration.

According to another aspect of the invention, a computer readable medium is provided, which may be for configuring a system for triggering a privacy status of a lock. The computer readable medium comprises instructions executable by a computer processor in order to configure the processor to carry out the method of the second aspect as well as optionally any optional feature thereof. The computer readable medium may comprise one or more processors and a memory coupled to the one or more processors, where the memory stores the instructions that, in use, are executed by the one or more processors. The one or more processors are configured by the instructions to capture activity information of a user by a user device. The one or more processors are also configured to analyze the captured activity information and determine a busy status of the user based on the analysis. The one or more processors are further configured to transmit the busy status of the user to a lock for activating a privacy status of the lock when the user device determines the busy status of the user, the activation of the privacy status being for restricting other users from accessing the premises and/or indicating the busy status of the user. The one or more processors are further configured to provide a notification to the user for activating the privacy status before transmitting the busy status to the lock.

Other aspects, advantages, and salient features of the invention will become apparent to those skilled in the art from the following detailed description, which taken in conjunction with the annexed drawings, discloses exemplary user devices, systems and methods.

Described herein is a technology with a system and a method for activating a privacy status of a lock. A user may be present inside a premises and may be busy in some activities such as eating food, sleeping, using the restroom, or attending a meeting. When the user is busy in these activities, a user device of the user may automatically capture information of these activities using one or more sensors placed inside or outside the user device. Further, the user device may analyse the captured information of these activities to determine a busy status of the user. The analysis of the captured activities information is performed to determine if the user present inside the premises is busy or not. Also, the busy status of the user may be communicated to a lock located on a door of the premises for activating a privacy status associated with the lock.

On receiving the busy status of the user, the lock may activate the privacy status associated with the lock. The activation of the privacy status would restrict other users from accessing the premises. In addition, the lock may further indicate the other users regarding the busy status of the user using voice alert and/or through a light emitting diode (LED) indicator provided on the lock.

As used herein, the lock may be located on a door of the premises and may comprise a privacy knob. Also, the lock may have capability to communicate with the user device or a front desk system (FDS) through a network. The lock may be an electronic lock, a smart lock, an electro-mechanical lock or any such lock as understood by a person skilled in the art. Also, the premises can be a building, or a room with a door where the lock can be installed. Also, the premises can be a floor having a door where the lock can be installed.

As used herein, the user device is associated with the user and may store one or more applications. Such an application may perform operations/functions (such as analyze the captured activity information, determine a busy status of the user etc.) as described herein in the specification. Further, the application may be capable of computing and analyzing the activity information. The user device may be a desktop computer or a hand held device such as a mobile phone with network connectivity. Examples of the user device includes a desktop, workstation PC, a laptop, a smart phone, a tablet, a wearable device and the like.

As used herein, the network may refer to a wired network, a mesh network, a cellular network (such as Global System for Mobile (GSM) network, a Long-Term Evolution (LTE) network, a code-division multiple access (CDMA) network, a narrow-band internet of thing (NB-IoT) technique or category M1 technique)), a short-range network (a WiFi network, a ZigBee network, a bluetooth network, or a near-field communication technique) or any such network/technique that is known in the art.

<FIG> depicts an exemplary first activity of a user and information captured for the first activity of the user. As depicted, a user <NUM> may be present inside a premises <NUM> and the user <NUM> may be involved in a sleeping activity. Also, a user device <NUM> of the user <NUM> may also be present inside the premises <NUM> and automatically capture information of the sleeping activity of the user <NUM>. For this, the user device <NUM> may use an accelerometer (i.e. a sensor) present inside the user device <NUM> to capture movements of the user <NUM> present inside the premises <NUM> while the user <NUM> is involved in the sleeping activity. An application stored in the user device <NUM> may then analyze the captured activity information (i.e. movements) of the user <NUM> to determine if the user <NUM> is sleeping or moving inside the premises <NUM>. For an instance, if the user <NUM> is moving/walking inside the premises <NUM>, the accelerometer would sense movements (or displacement from one point to another point) of the user <NUM> present inside the premises <NUM>. Then, the application may analyze the movements of the user <NUM> captured by the accelerometer. For this, the application may check if there is any change in displacement of the user <NUM> from one point to another point. In one example, the user device <NUM> may use a global positioning system (GPS) present inside the user device <NUM> to capture movements of the user <NUM> present inside the premises <NUM>.

If the accelerometer of the user device <NUM> does not capture any movements of the user <NUM> within a predetermined time period, the application in the user device <NUM> may determine that the user <NUM> is involved in the sleeping activity or taking rest and does not want to get disturbed. Thereby, the application in the user device <NUM> may determine a busy status of the user <NUM> based on the analysis of the captured information of the sleeping activity of the user <NUM> from accelerometer. As an example, the application may determine that the user <NUM> is busy in the sleeping activity if the accelerometer of the user device <NUM> does not sense any movements of the user <NUM> within the predefined period of time (say for, <NUM> minutes).

The user device <NUM> may use sound waves emitted by the user device <NUM> to capture information of the sleeping activity of the user <NUM> to determine the busy status of the user <NUM>.

<FIG> depicts an exemplary second activity of a user and information captured for second activity. As depicted, the user <NUM> is involved in a meeting activity with other person present inside the premises <NUM>. The user device <NUM> may automatically capture information of the meeting activity of the user <NUM>. For this, the user <NUM> may apply one or more gestures on the user device <NUM>. For applying the one or more gestures on the user device <NUM>, the user <NUM> may move the user device <NUM> in a pre-defined manner. For an instance, the user <NUM> may shake the user device <NUM> for <NUM> seconds by tightly holding the user device <NUM> in a hand. In another instance, the user <NUM> may tap two fingers on an interface of the user device <NUM> three times consecutively. These kinds of gestures applied by the user <NUM> on the user device <NUM> may be automatically captured by motion sensor/s or touch sensor/s of the user device <NUM>. Different types of gestures which can be applied on the user device <NUM> and known to a person skilled in the art are contemplated. Alternatively, a meeting activity of the user <NUM> may also be captured through a calendar application stored in the user device <NUM>. For instance, if the user <NUM> has a meeting scheduled on a particular day and time during a period when the user <NUM> is present inside the premises <NUM>. Such meeting activity of the user <NUM> would be captured by the user device <NUM> along with the gesture/s applied by the user <NUM> on the user device <NUM>.

The application in the user device <NUM> may analyze the captured activity information (i.e. gesture/s) of the user <NUM> by determining if the user <NUM> has correctly applied gesture/s on the user device <NUM> in a pre-defined manner. Also, the application in the user device <NUM> may analyze the captured information of the meeting scheduled in the calendar application. Based on the analysis of the captured information of the meeting activity, the application in the user device <NUM> may determine that the user <NUM> is busy in the meeting activity. Thus, the application in the user device <NUM> determines a busy status of the user <NUM> based on the analysis of the captured information of the meeting activity of the user <NUM>.

<FIG> depicts an exemplary third activity of a user and information captured for third activity of the user. As depicted, the user <NUM> is involved in an eating activity present inside the premises <NUM>. The user device <NUM> may automatically capture information of the eating activity of the user <NUM> through one or more gestures applied on the user device <NUM> by the user <NUM> as explained in <FIG> above. The application in the user device <NUM> may analyze the captured activity information (i.e. gesture/s) of the user <NUM> by determining if the user <NUM> has correctly applied gesture/s on the user device <NUM> in a pre-defined manner. Based on the analysis of the captured information of the eating activity, the application in the user device <NUM> may determine that the user <NUM> is busy in the eating activity since the user <NUM> has correctly applied gesture/s on the user device <NUM> in the pre-defined manner. Thus, the application in the user device <NUM> determines a busy status of the user <NUM> based on the analysis of the captured information of the eating activity of the user <NUM>.

<FIG> depicts an exemplary fourth activity of a user and information captured for fourth activity of the user. As depicted, the user <NUM> present inside the premises <NUM> may set the user device <NUM> in do-not-disturb mode (i.e. do-not-disturb mode activity) as provided in the user device <NUM>. In another exemplary embodiment, the user <NUM> present inside the premises <NUM> may set the do-not-disturb mode using an option provided in an application stored in the user device <NUM>. In one exemplary embodiment, the concierge or premises/hotel application are different from the application which performs the features as described herein. In another exemplary embodiment, the features described may be incorporated in concierge or premises/hotel application. The application executing on the user device <NUM> may automatically capture information of the do-not-disturb mode set by the user <NUM> either on the user device <NUM> or through the application as explained above. Based on the analysis of the captured information of the do-not-disturb mode by checking of the do-not-disturb mode is set by the user <NUM>, the application in the user device <NUM> may determine that the user <NUM> is busy and thus, the application in the user device <NUM> determines a busy status of the user <NUM>.

<FIG> depicts an exemplary fifth activity of a user and information captured for fifth activity of the user. As depicted, the user <NUM> is present inside the premises <NUM> and the user <NUM> is involved in an occupancy activity in a restroom of the premises <NUM>. An occupancy sensor <NUM> is installed in the restroom of the premises <NUM> to capture/sense occupancy/presence of the user <NUM> in the restroom of the premises <NUM>.

Such occupancy sensor <NUM> may capture information (i.e. occupancy/presence of the user <NUM>) of the occupancy activity of the user <NUM> inside the restroom and transmit the same to the user device <NUM>. Based on the analysis of the captured information of the occupancy activity, the application in the user device <NUM> may determine that the user <NUM> is busy in the restroom occupancy activity. The occupancy sensor <NUM> may also directly communicate the occupancy of the user <NUM> to a lock <NUM>. Embodiments of the present invention mentioned in <FIG> provides a technical advantage of automatically determining whether a user inside a premises is busy.

When the application in the user device <NUM> determine a busy status of the user <NUM> as explained in <FIG> above, the user device <NUM> transmits the busy status of the user <NUM> to a lock <NUM> for activating a privacy status of the lock <NUM>. The user device <NUM> may transmit the busy status to the lock <NUM> through a mesh network, a cellular network, or a short-range network. Furthermore, before transmitting the busy status of the user <NUM> to the lock <NUM>, the user device <NUM> also provides a notification to the user <NUM> for activating the privacy status of the lock <NUM>. Such a notification may be provided to the user <NUM> for receiving a confirmation from the user <NUM> for activating the privacy status of the lock <NUM>. On receiving the confirmation from the user <NUM>, the user device <NUM> may transmit the busy status of the user <NUM> to the lock <NUM>.

The application in the user device <NUM> may ask the user <NUM> to specify/provide a time duration for activating the privacy status during the time duration as specified by the user <NUM>. Then, the application in the user device <NUM> may receive an input from the user <NUM> to specify the time duration (such as, <NUM> minutes) for activating the privacy status of the lock <NUM>. Accordingly, the user device <NUM> may transmit the time duration to the lock <NUM> along with the busy status of the user <NUM>.

When the lock <NUM> receives the busy status of the user <NUM> and/or the time duration from the user device <NUM>, the lock <NUM> may activate the privacy status of the lock <NUM> for indicating the busy status of the user <NUM>. In an exemplary embodiment, the lock <NUM> may activate the privacy status of the lock <NUM> by providing a notification to other users using light emitting diode/s (LEDs) indicator/s provided on the lock <NUM>. For an instance, a red color LED may be activated (or turned-on) by the lock <NUM> to indicate the busy status of the user <NUM> to the other users outside the premises <NUM> trying to access the premises <NUM>. Further, the LED indicator may blink or may continuously glow till the expiration of the time duration to indicate the busy status of the user <NUM> to other users. In another exemplary embodiment, the lock <NUM> may activate the privacy status of the lock <NUM> by providing a notification to the other users outside the premises <NUM> using voice alert/s. For an instance, a voice alert like "User inside the room is busy for next <NUM> minutes. Please come back after <NUM> minutes" may be provided by the lock <NUM> to indicate the busy status of the user <NUM> to the other users outside the premises <NUM> trying to access the premises <NUM>. In addition, the lock <NUM> may display also time left for expiration of the time duration after which the user <NUM> may not be busy and the other user can access the premises <NUM>. For an instance, a timer showing time left for expiration of the time duration may be present on the lock <NUM>. This provides a technical advantage of automatically indicating to other people outside a premises for not disturbing a user present inside the premises. This provides a technical advantage of automatically indicating to other people outside a premises that the user present inside the room is currently busy.

Furthermore, the activation of the privacy status by the lock <NUM> may further comprise engaging a privacy knob with the lock <NUM>. The privacy knob may be associated with the lock <NUM>. The engagement of the privacy knob would restrict the other users from physically accessing/opening the door <NUM> of the premises <NUM> when the privacy status is activated on the lock <NUM>. Further, the privacy knob would be engaged with the lock <NUM> till the expiration of the time duration during which the privacy status is activated. After the expiration of the time duration, the privacy knob would be dis-engaged. Such engagement and dis-engagement of the privacy knob may be automatically done after the lock <NUM> activates the privacy status on the lock <NUM>. Alternatively, the engagement and dis-engagement of the privacy knob may be done by the user <NUM>.

The privacy status of the lock <NUM> may be removed/de-activated for indicating that the user <NUM> is not busy anymore and thus the busy status of the user <NUM> is not valid or applicable anymore. Further, after the expiration of the time duration for indicating the busy status of the user <NUM>, the LEDs indicator/s provided on the lock <NUM> would automatically become deactivated. Similarly, another voice alert like "User inside the room is not busy" may be provided by the lock <NUM> to indicate a non-busy status of the user <NUM> to the other users outside the premises <NUM>. Furthermore, the lock <NUM> may also display on the timer that the time duration for indicating the busy status of the user <NUM> has been expired and thus, the user <NUM> is not busy and the other user can access the premises <NUM>.

<FIG> depicts a block diagram of different components of a user device <NUM>. The user device <NUM> may comprise of, but is not limited to, an interface <NUM>, a communication unit <NUM>, a detection unit <NUM>, an analyzer <NUM>, a memory <NUM> and/or a processor <NUM>. The detection unit <NUM> may be an accelerometer and/or a global positioning system adapted to sense and capture information of sleeping activity of a user <NUM>. The detection unit <NUM> may be a motion sensor and/or an inertial sensor adapted to sense and capture information of eating activity and meeting activity of the user <NUM> as explained above. The detection unit <NUM> may be a touch sensor adapted to sense and capture information of do not disturb set by the user <NUM> as explained above. The detection unit <NUM> may communicate the captured activities information to the analyzer <NUM>. The analyzer <NUM> may be adapted to analyze the captured activities information of the user <NUM> to determine a busy status of the user <NUM> as explained above. The analyzer <NUM> may communicate the busy status of the user <NUM> to the communication unit <NUM>. The communication unit <NUM> may be adapted to transmit the busy status of the user <NUM> and/or a time duration to a lock <NUM> for activating the privacy status of the lock <NUM> as explained above. In an exemplary embodiment, the communication unit <NUM> may be a transceiver. The interface <NUM> may be adapted to provide a notification to the user <NUM> for activating the privacy status of the lock <NUM> and/or adapted to ask the user <NUM> to specify/provide the time duration for activating the privacy status. The memory <NUM> may be adapted to store application to perform operations/functions as described herein, to store the busy status of the user <NUM> and/or to store the time duration.

Moreover, the interface <NUM>, the communication unit <NUM>, the detection unit <NUM>, the analyzer <NUM>, and/or the memory <NUM> may be communicably coupled with the processor <NUM>. The different units described herein are exemplary. The invention may be performed using one or more units. For example, the tasks executed by the interface <NUM>, the communication unit <NUM>, the detection unit <NUM>, the analyzer <NUM>, the memory <NUM> and/or the processor <NUM> may be performed by a single unit. Alternatively more number of units as described herein may be used to perform the present invention.

<FIG> depicts a block diagram of different components of a lock <NUM>. The lock <NUM> may comprise of, but is not limited to, a transmitter <NUM>, a receiver <NUM>, an interface <NUM>, an activation unit <NUM>, a memory <NUM> and/or a processor <NUM>. The receiver <NUM> may be adapted to receive a busy status of a user <NUM> and/or a time duration from a user device <NUM> for activating a privacy status of the lock <NUM> as explained above. The receiver <NUM> may communicate the busy status to the activation unit <NUM> of the lock <NUM>. The activation unit <NUM> may activate the privacy status on the lock <NUM> using light emitting diode/s (LEDs) indicator/s and/or voice capability of the lock <NUM> as explained above. The interface <NUM> may be adapted to display time left for expiration of the time duration. The memory <NUM> may be adapted to store the busy status of the user <NUM> and/or the time duration.

Moreover, the transmitter <NUM>, the receiver <NUM>, the interface <NUM>, the activation unit <NUM>, the memory <NUM> may be communicably coupled with the processor <NUM>. The different units described herein are exemplary. The invention may be performed using one or more units. For example, the tasks executed by the transmitter <NUM>, the receiver <NUM>, the interface <NUM>, the activation unit <NUM>, the memory <NUM> and/or the processor <NUM> may be performed by a single unit. Alternatively a greater number of units than described herein may be used to perform the present invention.

<FIG> depicts a flowchart <NUM> outlining a method for activating a privacy status of a lock. The method flowchart <NUM> starts at step <NUM>.

At step <NUM>, a user device <NUM> may capture activity information of a user <NUM> when the user <NUM> is involved in any activity. This has been discussed above in <FIG> in greater detail.

At step <NUM>, an application in the user device <NUM> may analyze the captured activity information and determine a busy status of the user <NUM> based on the analysis. This has been discussed above in <FIG> in greater detail.

At step <NUM>, the user device <NUM> may transmit the busy status of the user <NUM> to a lock <NUM> for activating a privacy status of the lock <NUM>. This has been discussed above in <FIG> in greater detail. Then, the method flowchart <NUM> may end at <NUM>.

The present invention is applicable to various fields/industries such as, but not limited to, hospitality industry, real-estate industry, hostels, educational institutes, banking sector, automobile industry, and any such field/industry where the lock can be used and is obvious to a person skilled in the art.

There may be one or more computer readable devices. The one or more computer readable devices can be associated with a user device <NUM>. A computer readable medium comprises one or more processors and a memory coupled to the one or more processors, the memory stores instructions executed by the one or more processors. The one or more processors may be configured to capture activity information of a user <NUM> by a user device <NUM>. The one or more processors may be configured to analyze the captured activity information and determining a busy status of the user <NUM> based on the analysis. The one or more processors may be configured to transmit the busy status of the user <NUM> to a lock <NUM> for activating a privacy status of the lock <NUM>.

Exemplary computer readable media includes flash memory drives, digital versatile discs (DVDs), compact discs (CDs), floppy disks, and tape cassettes. By way of example and not limitation, computer readable media comprise computer storage media and communication media. Computer storage media include volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data. Computer storage media are tangible and mutually exclusive to communication media. Computer storage media are implemented in hardware and exclude carrier waves and propagated signals. Computer storage media as referenced herein are not signals per se. Exemplary computer storage media include hard disks, flash drives, and other solid-state memory. In contrast, communication media typically embody computer readable instructions, data structures, program modules, or other data in a modulated data signal such as a carrier wave or other transport mechanism and include any information delivery media.

Although described in connection with an exemplary computing system environment, the examples herein are capable of implementation with numerous other general purpose or special purpose computing system environments, configurations, or devices.

Implementations of the examples herein may be described in the general context of computer-executable instructions, such as program modules, executed by one or more computers or other devices in software, firmware, hardware, or a combination thereof. There may be any number and organization of such components or modules. There is nolimitation to the specific computer-executable instructions or the specific components or modules illustrated in the Figures/Tables and described herein. Other examples may include different computer-executable instructions or components having more or less functionality than illustrated and described herein. A general-purpose computer may transform into a special-purpose computing device when configured to execute the instructions described herein.

The order of execution or performance of the operations in the examples illustrated and described herein is not essential, unless otherwise specified. That is, the operations may be performed in any order, unless otherwise specified, and the examples may include additional or fewer operations than those disclosed herein. For example, executing or performing a particular operation before, contemporaneously with, or after another operation is contemplated.

As it employed in the subject specification, the term "processor" can refer to substantially any computing processing unit or device comprising, but not limited to comprising, single-core processors; single-processors with software multithread execution capability; multi-core processors; multi-core processors with software multithread execution capability; multi-core processors with hardware multithread technology; parallel platforms; and parallel platforms with distributed shared memory. Additionally, a processor can refer to an integrated circuit, an application specific integrated circuit (ASIC), a digital signal processor (DSP), a field programmable gate array (FPGA), a programmable logic controller (PLC), a complex programmable logic device (CPLD), a discrete gate or transistor logic, discrete hardware components, or any combination thereof designed to perform the functions described herein. Processors can exploit nano-scale architectures such as, but not limited to, molecular and quantumdot based transistors, switches and gates, in order to optimize space usage or enhance performance of user equipment. A processor may also be implemented as a combination of computing processing units.

In the subject specification, terms such as "data store," "data storage," "database," "cache," and substantially any other information storage component relevant to operation and functionality of a component, refer to "memory components," or entities embodied in a "memory" or components comprising the memory. It will be appreciated that the memory components, or computer-readable storage media, described herein can be either volatile memory or nonvolatile memory, or can include both volatile and nonvolatile memory. By way of illustration, and not limitation, nonvolatile memory can include read only memory (ROM), programmable ROM (PROM), electrically programmable ROM (EPROM), electrically erasable ROM (EEPROM), or flash memory. Volatile memory can include random access memory (RAM), which acts as external cache memory. By way of illustration and not limitation, RAM is available in many forms such as synchronous RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double data rate SDRAM (DDR SDRAM), enhanced SDRAM (ESDRAM), Synchlink DRAM (SLDRAM), and direct Rambus RAM (DRRAM). Additionally, the disclosed memory components of systems or methods herein are intended to comprise, without being limited to comprising, these and any other suitable types of memory.

When introducing elements of aspects of the invention or the examples thereof, the articles "a", "an", "the", and "said" are intended to mean that there are one or more of the elements. The terms "comprising", "including", and "having" are intended to be inclusive and mean that there may be additional elements other than the listed elements. " The phrase "one or more of the following: A, B, and C" means "at least one of A and/or at least one of B and/or at least one of C".

Claim 1:
A user device (<NUM>) comprising:
a detection unit (<NUM>) adapted to capture activity information of a user (<NUM>); and
an analyzer (<NUM>) adapted to analyze the captured activity information and determine a busy status of the user (<NUM>) based on the analysis;
a communication unit (<NUM>) adapted to transmit the busy status of the user (<NUM>) to a lock (<NUM>) for activating a privacy status of the lock when the analyzer determines the busy status of the user, the activation of the privacy status being for restricting other users from accessing the premises and/or indicating the busy status of the user (<NUM>);
wherein the user device is adapted to provide a notification to the user (<NUM>) for activating the privacy status before transmitting the busy status to the lock (<NUM>).