Patent application number | Description | Published |
20120312988 | INFRARED RAY SENSOR, INFRARED RAY DETECTION DEVICE, AND ELECTRONIC APPARATUS - Provided is an infrared ray sensor that can conduct a plurality of different types of detection such as temperature detection and gas detection in a simple structure and that is small size and low cost. The infrared ray sensor ( | 12-13-2012 |
20130320213 | INFRARED DETECTION SENSOR ARRAY AND INFRARED DETECTION DEVICE - An infrared detection sensor array according to the present invention is characterized by being provided with a substrate, at least one hole that passes through the substrate, a first infrared detection element provided to one side of the substrate and a second infrared detection element provided on the other side of the substrate so as to at least partially cover the hole. | 12-05-2013 |
20150204726 | INFRARED DETECTION DEVICE AND INFRARED DETECTION METHOD - An infrared detection device that can detect movement, a temperature, and a stationary state of a detection object with a simple configuration is provided. | 07-23-2015 |
20150226604 | SENSOR DEVICE, VIBRATION DETECTION SYSTEM, SENSOR UNIT, INFORMATION PROCESSING DEVICE, VIBRATION DETECTION METHOD, AND PROGRAM - A sensor device includes: a first sensor group ( | 08-13-2015 |
Patent application number | Description | Published |
20090313383 | DATACASTING SYSTEM WITH AUTOMATIC DELIVERY OF SERVICE MANGEMENT CAPABILITY - A datacast system, and associated apparatus and method for automatically managing a data object or objects within a hierarchical carousel structure by enabling, among other functions, the dynamic allocation of bandwidth to each carousel within the structure. The dynamic bandwidth allocation enables a server platform to redistribute the bandwidth allocated to a carousel or set of data objects to adjust to desired changes in object transmission policies or priorities of a datacast application. | 12-17-2009 |
20100061388 | DATACASTING SYSTEM WITH INTERMITTENT LISTENER CAPABILITY - A server-client system or architecture that allows datacast applications to reliably transport data objects from a network server over a unidirectional packet network (“datacast network”) to one or more clients, each of which may be listening to the packet stream at different times. The invention allows the clients to listen intermittently to the datacast, yet still receive all of the data objects published by the server in a timely manner, and in a way that is more optimal in terms of client resource use. This ensures that listening clients can receive a complete set of the data objects broadcast while being able to conserve client processing and power resources by not requiring continuous listening by the client to the datacast. | 03-11-2010 |
20100287298 | DATACASTING SYSTEM WITH HIERARCHICAL DELIVERY QUALITY OF SERVICE MANAGEMENT CAPABILITY - Datacasting systems may include one or more compound carousels each managing one or more elementary carousels, and managed by a bandwidth manager. Subsets of compounds carousels may be identified, for example, according to priority levels. Bandwidth allocations may be determined for the compound carousels. For example, the bandwidth manager may utilize multiple bandwidth allocation cycles to determine the bandwidth allocations. The multiple bandwidth allocation cycles may form a sequence. Each bandwidth allocation cycle may at least partially allocate an available datacasting bandwidth resource to at least one of the identified subsets of the compound carousels. The allocations may be based at least in part on desired bandwidths determined by the compound carousels and/or one or more bandwidth guidelines of datacast sessions associated with the compound carousels. | 11-11-2010 |
20120122490 | LOCATION SPECIFIC EVENT BROADCASTING - Applications in a broadcast environment distribute events in real-time to a large number of receivers within specified geographic locations while efficiently sharing bandwidth resources with other applications using the same broadcast network. Applications need not be aware of the other applications sharing the resources, nor of the methods, protocols, and other mechanisms used to actually broadcast the data over the broadcast medium. Server-side applications that serve data, send notifications, or distribute events to specific locations within the network use a broadcast location manager. Client applications that receive such data, notifications, or events use a client location filter to obtain events that are relevant based on the location of the device. The broadcast location manager and client location filter work together to reliably and efficiently transmit data, notifications, and events to specific locations over the broadcast network for all applications involved. | 05-17-2012 |
20120226816 | DATACASTING SYSTEM WITH HIERARCHICAL DELIVERY QUALITY OF SERVICE MANAGEMENT CAPABILITY - Datacasting systems may include one or more compound carousels each managing one or more elementary carousels, and managed by a bandwidth manager. Subsets of compounds carousels may be identified, for example, according to priority levels. Bandwidth allocations may be determined for the compound carousels. For example, the bandwidth manager may utilize multiple bandwidth allocation cycles to determine the bandwidth allocations. The multiple bandwidth allocation cycles may form a sequence. Each bandwidth allocation cycle may at least partially allocate an available datacasting bandwidth resource to at least one of the identified subsets of the compound carousels. The allocations may be based at least in part on desired bandwidths determined by the compound carousels and/or one or more bandwidth guidelines of datacast sessions associated with the compound carousels. | 09-06-2012 |
20120230195 | RELIABLE EVENT BROADCASTER WITH MULTIPLEXING AND BANDWIDTH CONTROL FUNCTIONS - Data may be transmitted in a broadcast mode to multiple devices operating in a network. Efficient utilization of bandwidth while providing a desired level of quality of service is enabled for the applications executing on the devices that utilize the broadcasted data. A set of bandwidth constraints may be utilized in combination with a set of heuristics and rules for the allocation and re-allocation of bandwidth among multiple applications in a manner that minimizes the impact on the quality of service metrics of importance to the affected applications when contention exists for the network resources. Quality of service provided to each application may be degraded smoothly, with certain priorities and guarantees being maintained. Event segmentation and reassembly functions for applications may be provided, as well as reliability mechanisms to increase the ability to provide data to client devices that have not been actively receiving for significant periods of time. | 09-13-2012 |
20130034102 | DATACASTING SYSTEM WITH INTERMITTENT LISTENER CAPABILITY - A server-client system or architecture that allows datacast applications to reliably transport data objects from a network server over a unidirectional packet network (“datacast network”) to one or more clients, each of which may be listening to the packet stream at different times. The invention allows the clients to listen intermittently to the datacast, yet still receive all of the data objects published by the server in a timely manner, and in a way that is more optimal in terms of client resource use. This ensures that listening clients can receive a complete set of the data objects broadcast while being able to conserve client processing and power resources by not requiring continuous listening by the client to the datacast. | 02-07-2013 |
20130166735 | LOCATION SPECIFIC EVENT BROADCASTING - Applications in a broadcast environment distribute events in real-time to a large number of receivers within specified geographic locations while efficiently sharing bandwidth resources with other applications using the same broadcast network. Applications need not be aware of the other applications sharing the resources, nor of the methods, protocols, and other mechanisms used to actually broadcast the data over the broadcast medium. Server-side applications that serve data, send notifications, or distribute events to specific locations within the network use a broadcast location manager. Client applications that receive such data, notifications, or events use a client location filter to obtain events that are relevant based on the location of the device. The broadcast location manager and client location filter work together to reliably and efficiently transmit data, notifications, and events to specific locations over the broadcast network for all applications involved. | 06-27-2013 |