A wireless mobile device in a public communication network receives network-initiated signaling or messaging, while operating in a battery-conserving mode, or modes that, keep(s) minimal baseband processing functions awake. The baseband processing functions process incoming signaling or data in a received message to determine whether to act further on information in the incoming message by enabling additional processing capability in the mobile device. The mobile device may have permanent template criteria values, either coded in firmware or implemented in hardware, or temporary template criteria values, stored in RAM or processor registers, that are compared to values of an incoming message or datagram from the mobile network to determine whether to perform additional actions, such as awakening an application processor. Multiple templates may co-exist to allow different incoming datagrams to cause the device to take some additional action, respond, or even ignore information in an incoming datagram or message.

The present invention provides a control method applied to an electronic device is disclosed, wherein the electronic device includes a processor and a wireless network module, and the control method includes the steps of: generating a determination result by determining if the wireless network module needs to transmit a packet; and when the determination result indicates that the wireless network module needs to transmit the packet, reducing a frequency of a clock signal used by the processor during a packet transmission.

A power saving method includes: sending, by a terminal device, first information to a network device, where the first information is used to indicate processing time for the terminal device to process to-be-processed information; and configuring, by the network device, a time domain resource for the to-be-processed information based on the first information, and sending second information to the terminal device, where the second information is used to indicate the time domain resource. After receiving the second information, the terminal device adjusts the foregoing processing time based on the time domain resource indicated by the second information, to relax a clock of each module corresponding to the processing time. Thereby, a terminal device power saving is implemented. In addition, the network device configures the time domain resource based on the processing time of the terminal device that is indicated by the first information.

A communication method includes the following steps: acquiring a data rate of a data packet; setting a clock frequency of at least one component disposed along a data transmitting path or a data receiving path of a communication system according to the data rate of the data packet, and processing the data packet after the clock frequency of the at least one component disposed along the data transmitting path or the data receiving path of the communication system is set. When the data packet has a higher data rate, the clock frequency of the at least one component is set to a higher clock frequency. When the data packet has a lower data rate, the clock frequency of the at least one component is set to a lower clock frequency.

This disclosure provides a method and an apparatus for operating a processor in an electronic device. The method includes identifying an average throughput for a first set of subframes, predicting a load of the processor for a second set of subframes based on the identified average throughput, determining an operating frequency of the processor for the second set of subframes based on the predicted load, and operating the processor on the determined operating frequency for the second set of subframes.

A method for adjusting a wireless modem includes: a channel parameter of a wireless modem at a present moment is acquired; a target clock frequency and a target working voltage of the wireless modem are generated, according to the channel parameter, with a neural network that is pre-trained; and a working voltage and a clock frequency of the wireless modem are adjusted to the target working voltage and the target clock frequency, respectively.

A low power driving method includes receiving a signal for a sub control module from a main control module when an electronic device enters a low power mode. The low power driving method also includes transmitting display data to a display driving module in response to the signal.

A communication method includes the following steps: acquiring a data rate of a data packet; setting a clock frequency of at least one component disposed along a data transmitting path or a data receiving path of a communication system according to the data rate of the data packet, and processing the data packet after the clock frequency of the at least one component disposed along the data transmitting path or the data receiving path of the communication system is set. When the data packet has a higher data rate, the clock frequency of the at least one component is set to a higher clock frequency. When the data packet has a lower data rate, the clock frequency of the at least one component is set to a lower clock frequency.

A circuit system comprises a processor, a first clock with a first frequency, a second clock with a second frequency, such second frequency being higher than said first frequency and a clock calibration module. The clock calibration module comprises a plurality of counters configured to count cycles of the second clock when triggered. Each of the plurality of counters is configured to be triggered at successive cycles of the first clock. Each of the plurality of counters is configured, after a predetermined number of cycles of the first clock, to output a count of elapsed second clock cycles and the processor is configured to determine, using the counts outputted by the plurality of counters, a ratio between the first frequency and the second frequency.

The present disclosure is directed to a computerized method, system and software application for coordinating medical care through a Pathways Community Hub (HUB). A Pathways Community Hub is a network of care coordination agencies which focuses its mission towards reaching individuals within the community having the greatest risk-factors through the deployment of service providers such as community care coordinators. The Pathways Community Hub finds at-risk individuals in need of medical, health-related or social services, treats identified risk factors and measures a patient's risk status over time. The goal of the Pathways Community Hub is to achieve a reduction of risk among patients through open communication and collaboration among service providers including medical service providers and community-based organizations and to reduce the overall cost of medical, health-related and social services over time within a region.