Abstract:
The present invention provides a method for establishing a secure channel between wireless devices. The method involves reducing the transmit power of the devices in conjunction with placing the devices in close proximity to one another. By reducing the transmit power, wireless communications between the devices cannot be detected by other devices beyond the short transmission range. The devices then generate and exchange encryption keys using the reduced-power transmissions in order to establish a secure, encrypted communications channel. Once the secure channel is established, the devices increase their transmit power back to normal operating levels, allowing them to be moved further apart while maintaining secure wireless communications.

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS  
       [0001]     This application claims the benefit of and priority to U.S. Provisional Patent Application No. 60/609,622 filed Sep. 14, 2004 the technical disclosures of which are hereby incorporated herein by reference. 
     
    
     TECHNICAL FIELD  
       [0002]     The invention relates generally to wireless communication, and more specifically to security for transmitted signals.  
       BACKGROUND OF THE INVENTION  
       [0003]     Wireless communication systems are especially vulnerable to security-related attacks. Potentially, any device within radio range of a transmitter can intercept transmitted message without being detected by the transmitter or intended recipient(s). Conversely, any device may transmit to any other device that is within range. Therefore, “rogue” devices may mimic legitimate users of the wireless system in order to steal information or services and disrupt the intended use of the communications systems. Security related exposures include but are not limited to theft of information and services and denial of services for legitimate system users.  
         [0004]     Cryptography is often used to improve wireless security. Encryption keys known only to legitimate users of the system are used to establish trusted relationships and/or to protect wireless communications. Encryption keys are distributed to legitimate devices using a secure channel. The user may manually enter an encryption key(s) into a device using a keypad or other entry method. Another method involves establishing a temporary wired communications channel for conveying the encryption key(s). Yet another approach uses a portable storage device to transfer encryption key(s) from one device to another.  
         [0005]     The manual entry of encryption keys requires a keypad, which increases device costs. It is not practical to integrate a keypad into certain types of devices, such as a computer mouse. In addition, manual entry is error prone and inconvenient to the user.  
         [0006]     The use of portable storage devices eliminates human errors from manual entry of encryption keys but increases the cost of devices that otherwise do not require the capability. In addition, the mechanical and physical access requirements associated with providing such capability can be a problem with some wireless devices, e.g. a mechanical connector and insertion slot is required with many types of portable storage devices. Furthermore, while portable storage devices are often more convenient than manual entry, they still require the user to perform several steps correctly and are still subject to human error.  
         [0007]     Wired communications increases device cost and can be inconvenient to the user due to the need to configure the devices for the wired connection.  
         [0008]     Therefore, it would be desirable to have a method for establishing a secure wireless channel between devices without requiring cryptography.  
       SUMMARY OF THE INVENTION  
       [0009]     The present invention provides a method for establishing a secure channel between wireless devices. The method involves reducing the transmit power of the devices in conjunction with placing the devices in close proximity to one another. By reducing the transmit power, wireless communications between the devices cannot be detected by other devices beyond the short transmission range. The communication link between the two devices is considered a secure channel when it can be reasonably confirmed that no “rogue” devices are within communication distance, or effective radio range, of the two devices. For example, with the reduced power settings the effective radio range of the wireless communication of the devices may be only slightly greater than the device&#39;s physical size. Therefore, if the two devices are within this effective radio range and no other devices are within a reasonable distance, the communication is considered a secure channel.  
         [0010]     Any informational data can be communicated over the secure channel. In one embodiment, after establishing a secure channel, the devices then generate and exchange encryption keys over the secure channel. By exchanging the keys over this secure channel, the two devices will have the necessary keys to establish an encrypted session over a standard wireless communication link.  
         [0011]     After successfully exchanging the two keys, the “enrollment” process has been completed. Enrollment is the process of exchanging encryption keys between two devices, enabling them to establish an encrypted session. After enrollment, the two devices increase the respective transmission powers to normal operating levels. The increased transmission power increases the effective radio range of the two devices. The two devices may now be separated by a greater distance.  
         [0012]     One goal of the present invention is to establish secure communication between a first device and a second device. Secure communication is any form of communicating between the two devices that enables the two devices to communicate with little or minimal risk of divulging the information in the communication. One possible form of secure communication is an encrypted session. For example, after raising the transmission power the newly acquired encryption keys are used to initiate an encrypted session between the two devices. The encrypted session uses the same type of communication link as described earlier, but the data is encrypted before being transmitted, and only devices with the appropriate encryption keys are able to decrypt and understand the data.  
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0013]     The novel features believed characteristic of the invention are set forth in the appended claims. The invention itself, however, as well as a preferred mode of use, further objects and advantages thereof, will best be understood by reference to the following detailed description of an illustrative embodiment when read in conjunction with the accompanying drawings, wherein:  
         [0014]      FIG. 1  is a depiction of a plurality of wireless devices that may incorporate the present invention.  
         [0015]      FIG. 2A  is a depiction of the normal-power communication ranges between three wireless devices.  
         [0016]      FIG. 2B  is a depiction of the low-power communication ranges between three wireless devices.  
         [0017]      FIG. 3  is a flowchart illustrating the process of establishing a secure channel in accordance with the present invention.  
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0018]     The present invention provides a method for establishing a “secure channel” (as referred to as a secure link) over a wireless communications system without requiring cryptography. Once a secure channel is established via the present invention. The secure channel may then be used to transfer encryption keys to enable secure communications via encryption. The invention provides for a cost effective, convenient solution, which avoids the mechanical issues, associated with keypads and portable storage device readers.  
         [0019]     The present invention uses the wireless communications capability built into devices, which may be incorporated into these devices exclusively to convey sensitive information. However, in one possible embodiment, wireless capability is integral to normal device functionality, and the invention takes advantage of this capability to establish a secure channel when required.  
         [0020]     The invention establishes a secure channel by using reduced transmit power in conjunction with placing the devices in relatively close proximity to one another when the secure channel is in use. Wireless communications systems are designed to be usable over a specific range, which is the maximum distance between communicating devices. The transmit power as measured at the transmitter antenna is a dominant factor affecting maximum range. The invention reduces transmit power below the maximum capabilities of the device and wireless system in order to improve security.  
         [0021]     Security can be assured with reasonable confidence if the usable range of a wireless communication is contained within an area that is known to be free of suspect or “rogue” devices (i.e. the area within the reduced transmission range is physically secure). The use of reduced power transmission and the proximity requirement are maintained only when the secure channel needs to be established to exchange the encryption keys. Normal transmit power levels and distances between devices can be restored when the secure channel is no longer needed.  
         [0022]      FIG. 1  is a depiction of several devices capable of utilizing the present invention. Wireless devices that may incorporate the present invention includes, a wireless access point  110 , a keyboard  112 , a tablet personal computer  114 , a desktop computer  116 , a cellular telephone  118 , a printer  120 , a personal digital assistant  122 , a computer display  124 , a laptop  126 , or a computer mouse  130 . However, such a list is not exclusive, and any device capable of wireless communication may utilize the present invention.  
         [0023]      FIG. 2A  is a graphical depiction of the normal-power communication ranges of three wireless devices. The first device  210  has an effective communication range shown by the circle  212 . The real-world communication ranges of the devices are difficult to determine precisely, because many environmental factors play a role in determining the range such as the existence of objects between two devices, antenna design, or interference from other radio devices. The shown communication range is a rough estimate only intended to illustrate the operation of the devices in the context of the present invention. The second device  220  has an effective communication range shown by the circle  222 . The spatial relationship between the three devices is important, and it should be noted that the first device  210  and the second device  220  are in close proximity, while the third device  230 , a “rogue” or unauthorized device, is at some distance from the first two devices. As shown, the communication ranges of the first and second device encompass all three devices including the “rogue” device  230 . This means all three devices are capable of receiving the communications from the first and second device ( 210  and  220 ). Exchanging sensitive information, including encryption keys, between the first device  210  and the second device  220  could be intercepted by the “rogue” third device  230 .  
         [0024]      FIG. 2B  is a graphical depiction of the low-power communication range of three wireless devices in the same spatial relationship as shown in  FIG. 2A . At low-power the effective communication ranges of the first device  210  and second device  220  are shown by circles  214  and  224 . The first device  210  has an effective low-power communication range  214  that encompasses the second device  220 , but not the third device  230 . The second device  220  has an effective low-power communication range  224  that encompasses the first device  210 , but not the third device  230 . In the present invention, if it is known that no “rogue” devices, like device  230 , are within the low-power communication ranges of the first and second device ( 214  and  224 ) then any communication between the first device  210  and the second device  220  is a “secure channel” in that there is a reasonable confidence that no other devices are capable of intercepting the communication.  
         [0025]      FIG. 3  is a flowchart illustrating the process of establishing encrypted communication in accordance with the present invention. The establishment of a trusted relationship between two devices is called “enrollment”. The process begins when two wireless devices come within radio range and discover each other using normal, non-secure transmissions at normal power levels (step  314 ). Once the devices detect each other, one or both may provide an indication to the user that wireless communication is possible and a request is made for the user to authorize whether or not the enrollment process should proceed (step  316 ). Authorization may be accomplished by a number of different methods. For example, the user may authorize the communication by pressing a button on one of the devices. In another embodiment, the device may be preauthorized to conduct enrollment with certain devices. In yet another embodiment, both devices may require a button or actuating device be used to authorize the enrollment process. If the user does not want to proceed with enrollment, the process simply ends. If the user does want to proceed with enrollment one or both of the devices instruct the user to place the devices in close proximity to each other and the transmission power levels for the respective devices are reduced to a low-power level (step  318 ). For Wireless Personal Area Network (WPAN) devices, the two devices are typically located within a few inches of each other. The specific distance depends on the actual low-power transmission level used in a particular embodiment. The low-power transmission level should be determined for each particular application such that only the devices involved in the enrollment process are within the effective communication range of each other. This prevents any rogue devices from intercepting the communication between the two devices. A reference back to  FIG. 2B  illustrates physical device relationships and the effective communication ranges for low-power transmission levels. If the first device  210  and the second device  220  were engaged in an enrollment process, the third device  230  would not be capable of intercepting the communications between the first device and the second device because the transmission power level of the first and second devices  210  and  220  are insufficient to allow the third device  230  to “eavesdrop.” A secure channel has been established between the first device and the second device, meaning their communication cannot be intercepted. After reducing the power of their respective transmissions (step  318 ), the devices then generate the encryption key(s) required for initiating an encrypted session and exchange, or share, the key(s) using reduced power transmissions (step  320 ). A nonexhaustive list of encryption keys that may be used with the present invention are Data Encryption Standard (DES) keys, Advanced Encryption Standard (AES) keys, and a number of other encryption key types.  
         [0026]     After the devices confirm successful communication of the encrypted keys, the power levels may be raised back to a normal-power transmission level (step  322 ). At this point, enrollment has completed, but the communication between the devices is unsecured, in that other devices may be within range to intercept communication, and unencrypted, in that data transmitted across the wireless communication link is not protected by the use of the encryption keys.  
         [0027]     After enrollment, the two devices may negotiate, or initiate, an encrypted session (step  324 ) using the encryption key(s) acquired in the enrollment process. When an encrypted session has been successfully negotiated, the data communicated across the communication link is encrypted so that other devices would be practically incapable of determining the unencrypted data communicated.  
         [0028]     Optionally, at any point in the process, the user(s) of the devices may be notified when enrollment is completed and/or that an encrypted session has been negotiated. The normal-power transmission levels allow the user to freely move the devices anywhere within the normal operating distances, illustrated by the operating ranges shown in  FIG. 2A .  
         [0029]     An alternative embodiment of the present invention may perform mixed level transmissions using the same basic technology. For example, by selectively applying reduced transmit power, i.e. a low transmit power, communication can be over a “mixed-use channel.” The mixed-use channel communicates some transmissions at a low transmission power level, like the secured channel described earlier, and some transmissions at a normal transmission power level. The transmission power level is dynamically selected based on whether the data to be transmitted is a secure transmission, i.e. confidential information, or an unsecured transmission, e.g. normal Internet content.  
         [0030]     By reducing the range of transmission through reduced power, the invention improves security by reducing the opportunity for unwanted devices to intercept encryption keys and comprise the security of any encrypted session. The present invention may also use secure and non-secure transmissions simultaneously. Selective, dynamic use of reduced power transmissions may be based on the need to secure specific transmission. In this manner, reduced transmit power is applied depending on the target device and the nature of the transmission.  
         [0031]     The description of the present invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention, the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated. It will be understood by one of ordinary skill in the art that numerous variations will be possible to the disclosed embodiments without going outside the scope of the invention as disclosed in the claims.