A correlation computation method includes: performing, by a grouping circuit, a grouping operation upon a data sequence according to an in-phase code sequence and a quadrature code sequence, wherein the data sequence is derived from a quadrature phase shift keying (QPSK) modulated signal; performing at least one accumulation operation upon data samples categorized into at least one data sample group by the grouping operation, to generate at least one accumulation result; and deriving a correlation value between the data sequence and both of the in-phase code sequence and the quadrature code sequence from the at least one accumulation result.

A transmission and reception method and apparatus for reducing a PAPR in an orthogonal frequency division multiplexing (OFDM) system are provided. A transmission method includes performing constellation rotation with respect to L input data symbols, performing L-point DFT spreading and circular extension on the constellation-rotated L data symbols to be K symbols, performing frequency domain (FD) windowing processing by multiplying the K circular-extended data symbols by a circular filter coefficient, and transmitting the processed data symbols.

A system and method for transmitting data over a wireless communication network. The method broadly includes generating a frequency hopping pattern spanning a plurality of time hops and a plurality of signal frequencies; generating a signal including a number of data symbols, the signal incorporating the frequency hopping pattern such that the symbols are distributed across the signal frequencies according to the frequency hopping pattern; transmitting the signal from a transmitting unit to a receiving unit over the wireless communication network; and generating an exact symbol error rate for the signal as received by the receiving unit.

A transmitting apparatus, includes a signal generator that generates a modulation signal by modulating transmission data using one of a plurality of modulation schemes, a first modulation scheme having a higher m-ary modulation value than other modulation schemes and a pilot signal generator generates a pilot signal. An orthogonal frequency division multiplexing (OFDM) signal generator generates an OFDM signal by selecting the modulation signal and the pilot signal according to the frame timing signal. The OFDM signal is converted to a radio signal, is amplified and is transmitted to an antenna. The pilot signal is inserted in the OFDM signal per a predetermined OFDM symbol and per a predetermined subcarrier and has a lower amplitude than a maximum amplitude of the first modulation scheme in an in-phase-quadrature (IQ) plane.

This disclosure is directed to a transmitter including a phase locked loop (PLL), a modulator, and a power amplifier (PA). A controller including programmable and/or hardened logic circuitry may be coupled to the PLL and the modulator. The controller may provide encoded signals based on quadrature phase shift keying (QPSK) scheme for transmission by the transmitter. In particular, the controller may provide multiple bursts of pulses indicative of data packets to the modulator. Moreover, the controller may provide instructions indicative of generating clock signals with in-phase and quadrature phases to the PLL. The PLL may generate clock signals corresponding to the in-phase and quadrature phases. As such, the transmitter may generate in-phase and quadrature output signals based on receiving each burst of pulses with either in-phase or quadrature phases.

This disclosure provides methods, components, devices and systems for extended long range (ELR) physical layer protocol data unit (PPDU) design. In some implementations, a first wireless device may a preamble of the PPDU, where a first portion of the PPDU may include one or more legacy fields, such as at least a legacy signal (L-SIG) field. In some examples, a second portion of the preamble may include at least a first ELR signature field indicating that the PPDU is associated with ELR communications. In such implementations the at least first ELR signature field may follow the L-SIG field. A second wireless device, the receiver of the PPDU, may identify that the PPDU is associated with ELR communications based on the ELR signature field being included in the preamble of the PPDU.

This disclosure describes systems, methods, and devices related to optimized transceiver capabilities. A device may provide support for multiple modulation and coding schemes (MCSs), including QPSK 2/3, 16-QAM 2/3, 256-QAM 2/3, and 16-QAM 5/6, with relaxed constellation error requirements to enhance throughput and range in wireless communication. The device may cause to implement enhanced transmitter constellation error requirements for improved signal quality in 802 11bn networks. The device may provide support for extended range modulation and coding schemes (ELR MCSs), including BPSK 1/2 and QPSK 1/2 with 4 duplication, to optimize network performance.

A method for transmitting data in a sensor bus system and a sensor bus system. The sensor bus system includes an electronic controller, a plurality of sensors, and a twisted two-wire line between the electronic controller and the sensors, wherein the electronic controller is designed to supply electrical energy to the sensors via the twisted two-wire line, and the sensors are designed to transmit received information to the electronic controller in an I/Q-modulated manner via the twisted two-wire line.

This disclosure describes systems, methods, and devices related to Efficient Ranging Optimization. Wi-Fi peer-to-peer devices may exchange null data packets as part of a fine timing measurement procedure for device ranging operations without requiring a trigger frame to initiate the exchange, and may renegotiate the timing when the devices are to be available for subsequent exchanges for device ranging operations.

A transmitter includes: processing circuitry which, in operation, performs correction processing on a first signal of a pair of transmission signals mapped to frequency resources symmetric with respect to a center frequency by using a second signal of the pair of transmission signals; and a quadrature modulator which, in operation, performs quadrature modulation on the pair of transmission signals after the correction processing.