Certain aspects of the present disclosure provide techniques for enhancements to channel state information (CSI) reporting. A method that may be performed by a user equipment (UE) includes obtaining, from a network entity, a CSI reporting configuration for reporting CSI for a channel. The method further includes generating a model of an interference pattern for the channel, and predicting one or more candidate interference levels for one or more upcoming slots using the model. The method further includes reporting information regarding the candidate interference levels to the network entity.

The present invention discloses a wireless communication apparatus having memory sharing mechanism that includes a communication circuit, a memory circuit and a processing circuit. The processing circuit performs the steps outlined below. Remote wireless communication apparatuses are connected to perform channel detection and communication thereon by a communication circuit. Compressed channel state information (CSI) generated by the remote wireless communication apparatuses is received by the communication circuit. The compressed CSI is stored in the memory circuit. Raw CSI is generated according to a status of the wireless channel. When a remaining capacity of the memory circuit is not sufficient, a number of the remote wireless communication apparatuses that the communication circuit performs the channel detection thereon is decreased and the corresponding compressed CSI stored in the memory circuit is removed. The raw CSI is stored in the memory circuit.

The present invention discloses a wireless communication apparatus having memory sharing mechanism that includes a communication circuit, a memory circuit and a processing circuit. The processing circuit performs the steps outlined below. Remote wireless communication apparatuses are connected to perform channel detection and communication thereon by a communication circuit. Compressed channel state information (CSI) generated by the remote wireless communication apparatuses is received by the communication circuit. The compressed CSI is stored in the memory circuit. Raw CSI is generated according to a status of the wireless channel. When a remaining capacity of the memory circuit is not sufficient, a number of the remote wireless communication apparatuses that the communication circuit performs the channel detection thereon is decreased and the corresponding compressed CSI stored in the memory circuit is removed. The raw CSI is stored in the memory circuit.

A method and an electronic device for configuring signal pads between three-dimensional stacked chips are provided. The method includes: obtaining a plurality of frequency response curves corresponding to a plurality of parameter sets; obtaining an operating frequency; selecting a selected frequency response curve from the plurality of frequency response curves according to the operating frequency, where the selected frequency response curve corresponds to a selected parameter set among the plurality of parameter sets; generating, according to the selected parameter set, a signal pad configuration for configuring a first signal pad and a second signal pad on a surface of a chip; and outputting the signal pad configuration.

A method and an electronic device for configuring signal pads between three-dimensional stacked chips are provided. The method includes: obtaining a plurality of frequency response curves corresponding to a plurality of parameter sets; obtaining an operating frequency; selecting a selected frequency response curve from the plurality of frequency response curves according to the operating frequency, where the selected frequency response curve corresponds to a selected parameter set among the plurality of parameter sets; generating, according to the selected parameter set, a signal pad configuration for configuring a first signal pad and a second signal pad on a surface of a chip; and outputting the signal pad configuration.

Embodiments of a STA configured for proximity detection by multiple WLAN link tracking are disclosed herein. In some embodiments, the STA performs WLAN sensing using two or more WLAN links with one or more other STAs to track a channel state of each link and performs motion detection based on the tracked channel state of each WLAN link to detect motion in any of the WLAN links. If motion is detected in at least some of the WLAN links, the STA may perform proximity detection to indicate proximity by combining results of the WLAN sensing for each link to determine whether the motion is proximate to the STA or proximate to one of the other STAs.

Techniques for minimum-mean-square-error (MMSE) channel estimator using channel-dependent composite subcarriers and combined pilots reduce computational complexity and memory usage while still achieving near optimum performance. A set of interpolation filters, that are pre-calculated for different radio propagation environments, e.g., channel state information, are stored in look up tables at the receiver and used to interpolate channel estimates for combined pilots to obtain channel estimates for individual subcarriers.

The present invention is aimed at making it possible to assess a radio wave intensity distribution widely covering areas and frequencies, and thereby making it possible to assess a distribution, widely covering areas and frequencies, of the quality of a communication function provided by a radio wave.

A radio wave intensity distribution assessment apparatus according to the present invention comprises: a radio wave station position detection unit that detects a position of a radio wave station on the basis of a geographic image having position information and of an image of the radio wave station; a radio wave station information integration unit that outputs radio wave station information based on the position of the radio wave station and radio wave station license information on the radio wave station; and a radio wave intensity distribution estimation unit that estimates and outputs a radio wave intensity distribution within a designated range on the basis of the radio wave station information and geographic information on the surroundings of the radio wave station.

Apparatuses, methods, and systems for dynamically estimating a propagation time between a first node and a second node of a wireless network are disclosed. One method includes receiving, by the second node, from the first node a packet containing a first timestamp representing the transmit time of the packet, receiving, by the second node, from a local time source, a second timestamp corresponding with a time of reception of the first timestamp received from the first node, calculating a time difference between the first timestamp and the second timestamp, storing the time difference between the first timestamp and the second timestamp, calculating a predictive model for predicting the propagation time based the time difference between the first timestamp and the second timestamp, and estimating the propagation time between the first node and the second node at a time by querying the predictive model with the time.

Apparatuses, methods, and systems for dynamically estimating a propagation time between a first node and a second node of a wireless network are disclosed. One method includes receiving, by the second node, from the first node a packet containing a first timestamp representing the transmit time of the packet, receiving, by the second node, from a local time source, a second timestamp corresponding with a time of reception of the first timestamp received from the first node, calculating a time difference between the first timestamp and the second timestamp, storing the time difference between the first timestamp and the second timestamp, calculating a predictive model for predicting the propagation time based the time difference between the first timestamp and the second timestamp, and estimating the propagation time between the first node and the second node at a time by querying the predictive model with the time.