Patent application number | Description | Published |
20080246439 | POWER RESOURCE MANAGEMENT - Systems and methods that recharge power supply units of portable electronic devices by leveraging energy harvesting or scavenging techniques. A recharge component accumulates energy from a plurality of sources, and supplies an electric current to the portable electronic device for a charge thereof. The sources of energy are based on routine user actions such as muscle movements (e.g., walking, movement of eye lashes, body heat), and can further consider environmental factors such as exposure to sunlight, temperature, as well as availability of external power sources. | 10-09-2008 |
20080246629 | MOBILE DEVICES AS CENTERS FOR HEALTH INFORMATION, MONITORING AND SERVICES - A mobile device with local and remote services and applications for collecting, storing, analyzing and delivering health data to medical professionals and others. The mobile device communicatively connects to sensors attached to a body to collect health data and remote servers to send raw and massaged data for medical analysis. The mobile device also provides alerts and alarm messages based on the health sensor data. | 10-09-2008 |
20080246734 | BODY MOVEMENT BASED USAGE OF MOBILE DEVICE - Body-based sensors are used to interact with one or more mobile devices. This interaction can be an alternative to or a supplement to traditional input methods on mobile devices. In order to facilitate everyday use, sensors can be hidden in jewelry or other fashion accessories normally worn by a user and wirelessly coupled to the mobile devices. When certain body movement is detected, a mobile device can automatically initiate one or more processes that perform various actions, such as actions on that mobile device or actions on communicatively coupled devices. The body movements can be user-defined so that a user can customize his interaction with the mobile device to meet the user's particular needs. The sensor array can also be adapted to turn on or off depending on the current environment. | 10-09-2008 |
20080248750 | COMPONENTIZATION OF MOBILE DEVICES - A mobile device with full functionality is comprised of two or more hardware components. Each hardware component provides a subset of mobile device functionality. Full functionality includes transceiver communications, processing, non-volatile memory, power, input and output. A communications interface, whether wired or wireless means, is used to link the two or more components together to produce a fully functionally mobile device. One or more of the hardware components can be advantageously embedded in or proximate to a piece of jewelry, a garment, or a fashion accessory. Other non-portable hardware components, when available, can also be linked to two or more components of the mobile device to provide additional functionality. | 10-09-2008 |
20080248779 | MEDIA CONTENT AND MOBILE DEVICES - Methodologies and related devices and systems are provided that facilitate provision, usage, publication, and/or rating of media content by providers and/or users media content. According to one aspect, content preloaded on a mobile device can be activated based on user fulfillment of an access requirement. According to another aspect, a user of a mobile device can publish user associated information to locate substantially matching users. According to a further aspect, users of mobile devices can share and rate content to create a community of aggregated content. Various modifications are provided that facilitate monetizing or incentivizing the described methodologies and related devices and systems. | 10-09-2008 |
20080249969 | INTELLIGENT AGENT FOR DISTRIBUTED SERVICES FOR MOBILE DEVICES - Mobile devices, mobile device systems and methods applying to mobile devices are provided that employ intelligent agents in combination with a wide array of remote utilities and information sources to facilitate improving a mobile device user's experience. By collecting contextual information from numerous information sources related to the mobile device user's context, more accurate and optimized determinations and/or inferences are formed relating to which remote utilities to make available to the mobile device user. This facilitates less confusion for the user in selecting desired mobile device content, services, and/or applications. The devices, systems, and methodologies also provide for an improved user experience in an open remote utility provider model. | 10-09-2008 |
20080250408 | PEER TO PEER SHARING OF FUNCTIONALITY OF MOBILE DEVICES - Systems and methodologies for sharing functionality among mobile devices in a peer to peer manner are described herein. A mobile device can include a plurality of functional components that can each perform respective functionality. Examples of the functionalities can include transceiver communications, processing, power, memory, input and output for the mobile device. Further, the mobile device can include a sharing component that enables sharing a particular third party functional component to replace or supplement operation of a corresponding functional component of the mobile device. The third party functional component, for instance, can be made available for sharing by at least one of a disparate mobile device or a stand alone functional component. Moreover, a host component can allow a disparate mobile device to use an available one or more of the plurality of functional components of the mobile device. | 10-09-2008 |
20080261572 | MOBILE DEVICE BUSINESS MODELS - A mobile device facilitates customized services for its user. For example, a mobile device can record information about a user using multiple inputs (e.g., sensors, GPS, camera, etc.). The information recorded creates a log of activities and interests of the user. One or more parts of the log are published and the user receives additional information based on the published information, such as other nearby people with similar interests or coupons. Other services of the mobile device can include biometric (e.g., facial) recognition of people, voting/polling, and language translation. The services available on a mobile device can be pre-configured so that the user can use the various services out of the box. | 10-23-2008 |
20090109953 | ROBUST TIMING SYNCHRONIZATION FOR MB-OFDM FREQUENCY HOPPING SYSTEMS IN A SOP ENVIRONMENT - System and methodologies for timing synchronization in a wireless communication system are provided herein. The provided systems and methodologies can utilize various timing synchronization algorithms and an associated state machine to reduce the down time of a wireless communication system due to the presence of simultaneously operating piconets (SOP) and/or other factors. Frequency band finger pattern detection techniques are additionally described that can reduce boundary mismatch rates for wireless receivers. In one example, by making use of the fact that time frequency codes (TFCs) possess unique frequency hopping patterns, system down time can be reduced and OFDM boundary matching can be enhanced to allow a receiver to obtain correct timing information even for communication channels having a very low SINR. | 04-30-2009 |
20090221252 | LOW COMPLEXITY AGC FOR MB-OFDM - System and methodologies for amplifier gain control in a communication system are provided herein. By leveraging similarities between the distribution of received signal samples in an MB-OFDM system and a Gaussian distribution, various algorithms described herein can be utilized to perform fast and low-complexity amplifier gain tuning. Received signal strength indication information corresponding to analog signal samples and/or digital signal samples obtained from an analog to digital converter are analyzed to obtain a signal energy distribution. The obtained signal energy distribution is then compared to a reference Gaussian distribution to adaptively tune an associated amplifier gain. | 09-03-2009 |
20110320518 | INTELLIGENT AGENT FOR DISTRIBUTED SERVICES FOR MOBILE DEVICES - Mobile devices, mobile device systems and methods applying to mobile devices are provided that employ intelligent agents in combination with a wide array of remote utilities and information sources to facilitate improving a mobile device user's experience. By collecting contextual information from numerous information sources related to the mobile device user's context, more accurate and optimized determinations and/or inferences are formed relating to which remote utilities to make available to the mobile device user. This facilitates less confusion for the user in selecting desired mobile device content, services, and/or applications. The devices, systems, and methodologies also provide for an improved user experience in an open remote utility provider model. | 12-29-2011 |