Patent application number | Description | Published |
20090041241 | NEAR FIELD COMMUNICATIONS SYSTEM HAVING ENHANCED SECURITY - A near field communication system can include a near field generator configured to generate a near field detectable information signal. The near field generator and supporting circuitry also produces incidental electromagnetic radiation. A masking signal transmitter is used with the near field generator and radiates a masking electromagnetic signal. The masking electromagnetic signal may substantially mask the incidental electromagnetic radiation. | 02-12-2009 |
20090081943 | SYSTEM AND METHOD FOR NEAR FIELD COMMUNICATIONS HAVING LOCAL SECURITY - A system and method for near field communications is provided. The system includes a near field generator configured to generate a near field detectable signal comprising information, a near field detector configured to receive the near field detectable signal and output the information, and an Electro-Magnetic (EM) Radio Frequency (RF) jamming transmitter configured to radiate an EM RF jamming signal, in order to jam reception of EM RF signals in the vicinity of at least one of the near field generator and near field detector. | 03-26-2009 |
20110256928 | COMPUTER GAME INTERFACE - A computer game interface is disclosed, having controller inputs configured to receive an input signal from a user interface controller and to enable the user to control a user controllable element of a game on a computer. The computer game interface also has a controller output that sends an output signal to the computer, the output signal having information to control the user controllable element of the game. Another element of the computer game interface is a switching module in communication with the controller inputs and the controller output. The switching module selects an input signal from the input signals received by the controller inputs and communicates the input signal to the controller output. An additional element of the computer game interface is a timer controlling the switching module to switch the input signal communicated to the controller output based on a time period. | 10-20-2011 |
20120116861 | TECHNIQUES FOR WIRELESS COMMUNICATION OF PROXIMITY BASED MARKETING - A system and method for wireless communication of proximity based marketing is provided. The method includes determining whether a proximity device and a mobile computing device are within a first proximity to each other, wherein the proximity device is associated with at least one of a product and a service, and communicating information indicating that the proximity device and the mobile computing device are within the first proximity to each other, when it is determined that the proximity device and the mobile computing device are within the first proximity to each other. | 05-10-2012 |
20120178364 | System and Method for Securely Pairing a Wireless Device Using Wireless Communication - Various embodiments of an invention for pairing a plurality of wireless devices using wireless communications are disclosed. A method for pairing a wireless device comprises placing the wireless device in a pairing enclosure. The pairing enclosure includes a shielding layer to substantially attenuate a pairing signal emitted within the pairing enclosure. A pairing signal transmitted through the pairing enclosure is received at a pairing signal receiver configured to detect a power level of the pairing signal. An indication is made regarding whether the pairing procedure can begin, proceed, or be terminated based on the power level of the pairing signal detected by the paring signal receiver. | 07-12-2012 |
20120203620 | Techniques For Wireless Communication Of Proximity Based Marketing - A system and method for proximity based marketing is disclosed between a mobile computing device having a Short Range Communication (SRC) device and a Proximity Short Range Communication (PSRC) device associated with a product or service using near field magnetic induction. The SRC device and/or the PSRC device can include at least two substantially mutually orthogonal antennas to provide magnetic antenna diversity. The method comprises defining a proximity boundary with dimensions defined by at least one of a communication range of the SRC and PSRC devices and a receive sensitivity of at least one of the SRC and PSRC devices. A proximity signal is communicated in the proximity boundary between the SRC device and the PSRC device. An action is performed by at least one of the SRC and PSRC devices when the proximity signal is detected. | 08-09-2012 |
20120220227 | SYSTEM AND METHOD FOR COMMUNICATING BETWEEN NEAR FIELD COMMUNICATION DEVICES WITHIN A TARGET REGION USING NEAR FIELD COMMUNICATION - Systems and methods for communication between near field communication devices within a target communication region using near field magnetic induction is disclosed. One method comprises generating a near field detectable signal at an active node having a power level sufficient to enable communication with a plurality of near field communication nodes located within the target communication region. Information is modulated onto the near field detectable signal using at least one of the near field communication nodes. The modulated information is detected at the active node. The information is then relayed on the near field detectable signal from the active node to at least one of the plurality of near field communication nodes within the target communication region. | 08-30-2012 |
20120289153 | Techniques For Wireless Communication of Proximity Based Content - A system and method for communication of proximity based content is disclosed between a mobile computing device having a Short Range Communication (SRC) device and a Proximity Short Range Communication (PSRC) device associated with a location or object using near field magnetic induction. The SRC device and/or the PSRC device can include at least two antennas to provide magnetic induction diversity. The method comprises defining a proximity boundary with dimensions defined by a magnetic induction diversity communication range of at least one of the SRC and PSRC devices. A proximity signal is communicated in the proximity boundary between the SRC device and the PSRC device. At least one action is performed by the mobile computing device or the PSRC device when the proximity signal is detected between the SRC device and the PSRC device. | 11-15-2012 |
20130072115 | Techniques for Wireless Communication of Proximity Based Content - A system and method for close proximity communication is disclosed. The method comprises detecting a signal transmitted by a close proximity communication (CPC) device at a distance of one of greater than and less than a CPC detection perimeter with a multi-mode magnetic induction communication (MMMIC) device having at least one antenna. The type of device transmitting the detected signal is identified. The MMMIC device is enabled to communicate with the close proximity communication device at one of the distance of greater than the CPC detection perimeter and less than the CPC detection perimeter based on the type of device that is identified. | 03-21-2013 |
20130079037 | Proximity Based Social Networking - A system and method for proximity based social networking is disclosed between mobile computing devices each having a short range communication (SRC) device using near field magnetic induction. The SRC devices can include at least two antennas to provide magnetic induction diversity. The method comprises defining a proximity boundary with dimensions defined by a communication range of the SRC devices. A proximity signal is communicated in the proximity boundary between the SRC devices. Information can be exchanged between the mobile computing devices based on the settings of a social networking filter module. | 03-28-2013 |
20150044968 | SYSTEMS AND METHOD FOR CLOSE PROXIMITY COMMUNICATION - A system and method for close proximity communication is disclosed. The method comprises detecting a signal transmitted by a close proximity communication (CPC) device at a distance of one of greater than and less than a CPC detection perimeter with a multi-mode magnetic induction communication (MMMIC) device having at least one antenna. The type of device transmitting the detected signal is identified. The MMMIC device is enabled to communicate with the close proximity communication device at one of the distance of greater than the CPC detection perimeter and less than the CPC detection perimeter based on the type of device that is identified. | 02-12-2015 |
20150045069 | Proximity Based Social Networking - A system and method for proximity based social networking is disclosed between mobile computing devices each having a short range communication (SRC) device using near field magnetic induction. The SRC devices can include at least two antennas to provide magnetic induction diversity. The method comprises defining a proximity boundary with dimensions defined by a communication range of the SRC devices. A proximity signal is communicated in the proximity boundary between the SRC devices. Information can be exchanged between the mobile computing devices based on the settings of a social networking filter module. | 02-12-2015 |
20150050883 | SYSTEM AND METHOD FOR SECURELY PAIRING A WIRELESS DEVICE USING WIRELESS COMMUNICATION - Various embodiments of an invention for pairing a plurality of wireless devices using wireless communications are disclosed. A method for pairing a wireless device comprises placing the wireless device in a pairing enclosure. The pairing enclosure includes a shielding layer to substantially attenuate a pairing signal emitted within the pairing enclosure. A pairing signal transmitted through the pairing enclosure is received at a pairing signal receiver configured to detect a power level of the pairing signal. An indication is made regarding whether the pairing procedure can begin, proceed, or be terminated based on the power level of the pairing signal detected by the paring signal receiver. | 02-19-2015 |