A method for coexistence interference reporting, comprising : a terminal reports a time division multiplexing (TDM) pattern according to coexistence interference, wherein the TDM pattern is used for indicating a time domain resource that can be used by a communication module applying interference or subjected to interference in the terminal; or the TDM pattern is used for indicating the time domain resource that cannot be used by the communication module applying interference or subjected to interference in the terminal; or the TDM pattern is used for indicating the transmission direction of an OFDM symbol, and the transmission direction comprises uplink transmission and/or downlink reception.

An electronic device includes a communication interface including a Bluetooth-Wireless Fidelity (WiFi) combo module; a memory storing one or more instructions; and a processor configured to execute the one or more instructions stored in the memory to: detect that a WiFi communication with an external WiFi device, which is connected through the Bluetooth-WiFi combo module, is to be recovered; and based on the detection, release a Bluetooth connection with a Bluetooth device connected through the Bluetooth-WiFi combo module, and subsequently reset the Bluetooth-WiFi combo module to recover the WiFi communication.

The embodiments of the present disclosure relate to a communication processing method, a communication processing device and a computer storage medium. The communication processing method applied to a user equipment (UE) includes: when determining or predicting that In Device Coexistence (IDC) interference is present, reporting IDC interference indication information. Where, the IDC interference indication information is used to indicate an IDC-interference-affected transmission link in transmission links of the UE; and the transmission links of the UE include a sidelink, a cellular communication link and/or a satellite communication link of the UE.

Embodiments of the present disclosure provide systems, methods, and computer-readable medium for managing coexistence between two wireless communication devices. A method may include obtaining, by a communication device, protocol metadata corresponding to one or more communication protocols individually associated with respective activity identifiers. A request comprising an activity identifier may be received via a communication channel (e.g., a system power management interface). The protocol metadata corresponding to the activity identifier may be utilized to identify at least one of an action or a threshold which may then be performed and/or applied.

In some wireless systems (e.g.. 5G new radio (NR) systems), a user equipment (UE) may experience coexistence interference when using collocated radio transceivers to simultaneously communicate using different radio access technologies (RATs). To mitigate the coexistence interference, the UE may transmit a configuration request to a base station, where the configuration request may identify that the UE is operating on multiple RATs and identify that the UE is experiencing coexistence interference. Aspects of the present disclosure may further provide techniques for coexistence interference mitigation in wideband systems by allowing the UE to indicate the specific bandwidth parts (BVVPs) that are impacted by IDC interference to the base station such that the network can resolve the IDC interference by reconfiguring the bandwidth, instead of performing inter-frequency handover or removing /deactivating affected SCells.

A base station (BS) and a user equipment (UE) establish a wireless link. The BS transmits first downlink control information (DCI) to the UE over an unlicensed spectrum during a first channel occupancy time (COT). The first DCI schedules a plurality of shared channel communications, which may be physical uplink shared channel (PUSCH) communications or physical downlink shared channel communication (PDSCH) communications. The first DCI also schedules an acknowledgment message for one or more of the plurality of shared channel communications. The scheduling indicated by the first DCI may include cross-COT scheduling, where one or more communications are scheduled in a second COT or outside of a COT. The UE and the BS perform the plurality of shared channel communications according to scheduling indicated by the first DCI.

Wireless communications systems and methods related to uplink (UL) communications in a wireless network are provided. In some instances, a wireless communication device is configured to: transmit, to a second wireless communication device, a transmission grant indicating a transmission period; transmit a configuration indicating a plurality of reference signal symbols within the transmission period and an association between a plurality of starting locations and the plurality of reference signal symbols; monitor, in response to the transmission grant, for a communication signal from the second wireless communication device in the transmission period; and identify, upon detection of the communication signal, a starting location of the communication signal from among the plurality of starting locations within the transmission period.

Methods and systems are described for managing communication. A computing device may be configured to manage a first wireless service and a second wireless service. An interruption schedule may be used to limit transmissions associated with a first wireless service. The computing device may override the interruption schedule based on various override rules.

A system and method for detecting the presence of a Bluetooth or Zigbee signal within a short period of time is disclosed. The signal identification circuit has two stages, a first stage that processes windows to determine whether noise is present, and a second stage that processes long windows to determine whether the signal is a particular lower-power network protocol. The signal identification circuit can be configured to detect Bluetooth at 1 Mbps, Bluetooth at 2 Mbps or Zigbee. The signal identification signal may be used to allow a lower-power network controller to coexist with a high duty cycle WiFi controller. The signal identification circuit may also be used for other functions, such as powering on a lower-power network controller, determining CCA, or determining which channel a packet is being transmitted on.

Provided are a configuration method for scheduling a primary cell, a configuration apparatus for scheduling a primary cell, a device and a storage medium. The configuration method for scheduling a primary cell includes: configuring cross-carrier scheduling configuration information of a cell, such that a primary cell supports self-scheduling and being cross-carrier scheduled