This report presents a new low latency, high resolution and low cost timing synchro- nization technique for digital receivers. Traditional timing synchronization employs Matched filter to perform cross-correlation operation and estimate Time-of-Arrival (TOA) of the signal. Decreasing the latency of the traditional method through over- sampling leads to a higher complexity and it is not viable. Furthermore, to obtain a high-resolution TOA, an extensive bandwidth is required, which results in high system complexity. The proposed method uses single bit quantization to employ XNOR blocks instead of multiplier and accumulator (MAC) blocks in the traditional method. This substantially decreases complexity incorporating less hardware ele- ments in...
For the precise measurement of the time difference between the arrival of different signals coming f...
Complex digital systems are typically built on top of several abstraction levels: digital, RTL, com...
In this paper we show how to use a computer processor's\ud Time Stamp Counter register to provide a ...
This study presents an oversampling-based low-latency, high-resolution and low-cost timing synchroni...
La synchronisation temporelle est la première opération effectuée par le démodulateur. Elle permet d...
The recent advance in Field Programmable Gate Array (FPGA) technology has been largely embraced by t...
In this paper, a new time synchronization algorithm for OFDM systems with repetitive preamble is pro...
Orthogonal frequency division multiplexing (OFDM) is a viable technology for high-speed data transmi...
With the advent of OFDM for WLAN communications, as exemplified by IEEE 802.11a, it has become imper...
Time synchronization is the first function performed by the demodulator. It ensures that the samples...
The paper describes a technique how to synchronize timestamps from several devices. The method is sh...
Time synchronization is a key feature of Wireless Sensor Networks (WSNs). In low cost WSNs this is a...
This brief compares the use of multiplierless and DSP slice-based cross-correlation for IEEE 802.16d...
5.9 GHz advanced dedicated short range communications (ADSRC) is a short-to-medium range communicati...
International audienceA new hierarchical synchronization method is proposed for initial timing synch...
For the precise measurement of the time difference between the arrival of different signals coming f...
Complex digital systems are typically built on top of several abstraction levels: digital, RTL, com...
In this paper we show how to use a computer processor's\ud Time Stamp Counter register to provide a ...
This study presents an oversampling-based low-latency, high-resolution and low-cost timing synchroni...
La synchronisation temporelle est la première opération effectuée par le démodulateur. Elle permet d...
The recent advance in Field Programmable Gate Array (FPGA) technology has been largely embraced by t...
In this paper, a new time synchronization algorithm for OFDM systems with repetitive preamble is pro...
Orthogonal frequency division multiplexing (OFDM) is a viable technology for high-speed data transmi...
With the advent of OFDM for WLAN communications, as exemplified by IEEE 802.11a, it has become imper...
Time synchronization is the first function performed by the demodulator. It ensures that the samples...
The paper describes a technique how to synchronize timestamps from several devices. The method is sh...
Time synchronization is a key feature of Wireless Sensor Networks (WSNs). In low cost WSNs this is a...
This brief compares the use of multiplierless and DSP slice-based cross-correlation for IEEE 802.16d...
5.9 GHz advanced dedicated short range communications (ADSRC) is a short-to-medium range communicati...
International audienceA new hierarchical synchronization method is proposed for initial timing synch...
For the precise measurement of the time difference between the arrival of different signals coming f...
Complex digital systems are typically built on top of several abstraction levels: digital, RTL, com...
In this paper we show how to use a computer processor's\ud Time Stamp Counter register to provide a ...