Abstract: Vehicle cabin monitoring using a radar unit centrally positioned within the cabin to obtain image data of the vehicle cabin and a processor to generate detect occupancy of seats within the vehicle cabin, categorize occupants, detect posture, determine seatbelt status and monitor life signs of the occupants. An output unit may execute responses appropriate to the status of occupants of the vehicle cabin.

Abstract: A radar sensing system for estimating one or more of a vehicle's wheel parameters, including an antenna subsystem comprising one or more RF (Radio Frequency) antennas configured and enabled to transmit one or more RF signals from at least one RF antenna towards one or more selected directions or points and obtain reflected or affected plurality of RF signals from the one or more selected directions or points, a data acquisition subsystem configured and enabled to measure the axle-to-ground clearance and the axle-to-chassis clearance, and one or more processors configured and enabled to estimate the one or more of the vehicle's wheel parameters.

Abstract: A MIMO radar apparatus using correlated motion decomposed from reflectance data of multiple time frames to enhance discriminatory capacity in imaging. The MIMO radar apparatus includes power saving measures and has application in tracking temporal patterns of respiratory and cardiac activities in addition to recognition of targets within non-stationary environments.

Abstract: Systems and methods thereof configured for mapping an environment, comprising: continuously scanning, via at least one transmit/receive module, the environments volume for detecting objects, the transmit/receive module is configured to transmit signals and receive their reflection; measuring the location of the objects' reflected signals and optionally their strength, via at least one acquisition module and at least one processor; and constructing a real-time updated three-dimensional (3D) voxels' map of the environment; and associating for each voxel a time record of events and optionally their respective event features; wherein each event comprises at least the voxel's detected presence of signal/s.

Abstract: A MIMO radar apparatus using correlated motion decomposed from reflectance data of multiple time frames to enhance discriminatory capacity in imaging. The MIMO radar apparatus includes power saving measures and has application in tracking temporal patterns of respiratory and cardiac activities in addition to recognition of targets within non-stationary environments.

Abstract: Method and MIMO radar apparatus using correlated motion decomposed from reflectance data of multiple time frames to enhance discriminatory capacity in imaging. Such imaging has application in tracking temporal patterns of respiratory and cardiac activities in addition to recognition of targets within non-stationary environments.

Abstract: Method and MIMO radar apparatus using correlated motion decomposed from reflectance data of multiple time frames to enhance discriminatory capacity in imaging. Such imaging has application in tracking temporal patterns of respiratory and cardiac activities in addition to recognition of targets within non-stationary environments.

Abstract: The disclosure relates to systems and methods for managing a wireless powering system for power transfer to electrical devices, providing central management console through a communication network. The wireless powering system comprising at least one wireless power outlet with an integrated communication module and at least one management server and is further operable is further operable to provide location based services when coupled with a software application. The management system, of the current disclosure, is enabling remote health check and maintenance of all of wireless power outlets within the network. Further, the management system allows for complete monitoring of a deployment according to system administrator rights and policy management coupled with command and control functioning to determine allowed/disallowed functionality while transferring powering to an electrical device in a specific venue.

Abstract: The disclosure relates to systems and methods for managing a wireless power transfer network for power transfer to electrical devices, providing central management console in communication with cloud based network, comprising at least one wireless power outlet and at least one management server. The management system, of the current disclosure, is enabling remote health check and maintenance of all of wireless power outlets within the network. Further, the management system allows for complete monitoring of a deployment according to system administrator rights and policy management coupled with command and control functioning to determine allowed/disallowed functionality while transferring powering to an electrical device in a specific venue.

Abstract: Aspects of the present invention relates to providing devices, a system and method for controlling wireless power transfer across an inductive power coupling. The system, particularly, relates to enabling selection of a wireless power outlet of a multi-outlet power transmission surface closest to the location of a power receiver connected to an electric load and placed upon the surface. Accordingly, the multi-outlet power transmission surface comprising two sub-systems, a power transmission system and a signal transfer system, each operable independently and continuously. Further, the signal transfer system controls the activation of wireless power, configured to analyze the signal-quality of each detected communication signal received from a power receiver and thereby to identify the wireless power outlet closest to the location of the power receiver.

Abstract: The disclosure relates to systems and methods for managing wireless power transfer network for communication devices, providing central management in communication with a cloud based network for enabling remote activation. The system comprising at least one wireless power outlet and at least one management server. The management system, of the current disclosure, is enabling possible remote activation and associate between a communication device and a wireless power receiver, thus, allowing power transfer between the remote health check and maintenance of all of wireless power outlets from an outlet to a communication device via an associated wireless power receiver as well as providing communication based upon its UDID associated with the relevant RXID.

Abstract: The disclosure relates to system and methods for managing a network of power outlet devices configured to transmit power wirelessly for charging electrical devices. In particular the invention relates to a plurality of wireless power outlets controlled centrally via a wireless power modem and operable to power electrical devices using various associated power transfer protocols. Each power transfer servicing venue may be equipped with wireless power outlets supporting a protocol or technology—resonant, non-resonant, magnetic beam, inductive power transfer and the like. The current disclosure introduces a wireless power modem accessible externally via a network communication API and operable to control a plurality of wireless power outlets, each using an associated power transfer protocol via a power-transfer software application kit (SDK).

Abstract: The disclosure relates to providing system and methods for providing business and personal wireless power management functionality in a wireless power transfer network using a power management software application including monitoring and gathering data pertaining to the mobile device and the wireless power transfer network and further enable intelligent business data analysis of such a network. The wireless power transfer system allows wireless power transfer to electrical mobile devices of users such as smartphones, laptops and the like, at home, office and various public areas, and may be centrally monitored and controlled. The mobile device may be operable to execute the power management software application to enable monitoring and data gathering managing mobile device power related events, such as when the power level runs low and further enables to monitor and control power transfer. The software package may use various inputs, shared information, user experiences, ranking of the social space.

Abstract: Wireless power transfer between power transmitters and power receivers may be established by a digital ping phase during which the wireless power transmitter applies a power signal and waits for a valid response message from the power receiver. The response message may include an identification code and a checksum byte used by the power transmitter to validate the identification code. When a valid response is received, the power transmitter transitions to a power transfer phase.

Abstract: The disclosure relates to systems and methods for managing wireless power transfer network for communication devices, providing central management in communication with a cloud based network for enabling remote activation. The system comprising at least one wireless power outlet and at least one management server. The management system, of the current disclosure, is enabling possible remote activation and associate between a communication device and a wireless power receiver, thus, allowing power transfer between the remote health check and maintenance of all of wireless power outlets from an outlet to a communication device via an associated wireless power receiver as well as providing communication based upon its UDID associated with the relevant RXID.

Abstract: In a system and method for transferring power from a wireless power outlet to a wireless power receiver, an outlet transmits a first-type ping signal transferring a burst of energy to the wireless power receiver. The outlet includes a detector able to detect when the receiver activates an over voltage protection mechanism. When the OVP is activated the outlet may transmit a lower energy second-type ping signal.

Abstract: The disclosure relates to systems and methods for controlling a wireless power transfer system based upon Inductive Charging Technology using frequency based signaling communication protocol, operable to function in modes of Standby, Digital Ping, Identification, Power Transfer and End of Charge (EOC). The power transfer system comprising at least one wireless power outlet associated with a wireless power transmitter coil and at least one electrical device associated with a wireless power receiver coil, where the wireless power receiver coil is in multi-directional communication with the wireless power transmission of a message transmitter coil. The amount of power transferred is controlled by feedback communication between the receiver and the transmitter configured to increase or NO decrease power.

Abstract: Aspects of the present invention relates to providing devices, a system and method for controlling wireless power transfer across an inductive power coupling. The system, particularly, relates to enabling selection of a wireless power outlet of a multi-outlet power transmission surface closest to the location of a power receiver connected to an electric load and placed upon the surface. Accordingly, the multi-outlet power transmission surface comprising two sub-systems, a power transmission system and a signal transfer system, each operable independently and continuously. Further, the signal transfer system controls the activation of wireless power, configured to analyze the signal-quality of each detected communication signal received from a power receiver and thereby to identify the wireless power outlet closest to the location of the power receiver.

Abstract: The disclosure relates to systems and methods for managing a wireless powering system for power transfer to electrical devices, providing central management console through a communication network. The wireless powering system comprising at least one wireless power outlet with an integrated communication module and at least one management server and is further operable is further operable to provide location based services when coupled with a software application. The management system, of the current disclosure, is enabling remote health check and maintenance of all of wireless power outlets within the network. Further, the management system allows for complete monitoring of a deployment according to system administrator rights and policy management coupled with command and control functioning to determine allowed/disallowed functionality while transferring powering to an electrical device in a specific venue.

Abstract: The disclosure relates to systems and methods for managing a wireless power transfer network for power transfer to electrical devices, providing central management console in communication with cloud based network, comprising at least one wireless power outlet and at least one management server. The management system, of the current disclosure, is enabling remote health check and maintenance of all of wireless power outlets within the network. Further, the management system allows for complete monitoring of a deployment according to system administrator rights and policy management coupled with command and control functioning to determine allowed/disallowed functionality while transferring powering to an electrical device in a specific venue.