In this letter, we analyse and optimize an intelligent reflecting surface (IRS)-assisted ultra-reliable and low-latency communications (uRLLC) system supported by wireless energy transfer (WET) technology, in which short packets are used in both the WET and wireless information transfer (WIT) phases. We first present the statistical features of the signal-to-noise ratio (SNR) of the system. Then, we derive an approximate closed-form expression of the average packet error probability (APEP). Additionally, we optimize the channel uses in the WET and WIT phases to maximize the effective throughput (ET) of the system. Finally, the effectiveness of the proposed solution is verified by Monte-Carlo simulation
WIRELESS POWERED COMMUNICATIONS: ENERGY BEAMFORMING, RELAY SCHEDULING, AND AGE OF INFORMATION WENZHU...
This paper studies intelligent reflecting surface (IRS) aided wireless power transfer (WPT) to batte...
In this paper, we study the fundamental limits of a simultaneous wireless information and power tran...
In this letter, we analyse and optimize an intelligent reflecting surface (IRS)-assisted ultra-relia...
The low efficiency of wireless power transfer (WPT) poses a key challenge for energy-constrained wir...
In this paper, we investigate a reconfigurable intelligent surface (RIS)-assisted wireless communica...
China Scholarship Council. Horizon Europe COVER project (Grant Number: 101086228); National Natura...
Wireless power transfer and short packet communications are two technologies ideal for next-generati...
This paper examines how to minimize the energy consumption of a user equipment (UE) when transmittin...
Different from conventional wired line connections, industrial control through wireless transmission...
This dissertation focuses on robust wireless communication system designs for low power short messag...
Intelligent Reflecting Surface (IRS) utilizes low-cost, passive reflecting elements to enhance the p...
Wireless energy transfer (WET) has been a promising technology to tackle the lifetime bottlenecks of...
A device-to-device (D2D) ultra-reliable low latency communications network is investigated in this p...
Radio frequency (RF) signals have been relied upon for both wireless information delivery and wirele...
WIRELESS POWERED COMMUNICATIONS: ENERGY BEAMFORMING, RELAY SCHEDULING, AND AGE OF INFORMATION WENZHU...
This paper studies intelligent reflecting surface (IRS) aided wireless power transfer (WPT) to batte...
In this paper, we study the fundamental limits of a simultaneous wireless information and power tran...
In this letter, we analyse and optimize an intelligent reflecting surface (IRS)-assisted ultra-relia...
The low efficiency of wireless power transfer (WPT) poses a key challenge for energy-constrained wir...
In this paper, we investigate a reconfigurable intelligent surface (RIS)-assisted wireless communica...
China Scholarship Council. Horizon Europe COVER project (Grant Number: 101086228); National Natura...
Wireless power transfer and short packet communications are two technologies ideal for next-generati...
This paper examines how to minimize the energy consumption of a user equipment (UE) when transmittin...
Different from conventional wired line connections, industrial control through wireless transmission...
This dissertation focuses on robust wireless communication system designs for low power short messag...
Intelligent Reflecting Surface (IRS) utilizes low-cost, passive reflecting elements to enhance the p...
Wireless energy transfer (WET) has been a promising technology to tackle the lifetime bottlenecks of...
A device-to-device (D2D) ultra-reliable low latency communications network is investigated in this p...
Radio frequency (RF) signals have been relied upon for both wireless information delivery and wirele...
WIRELESS POWERED COMMUNICATIONS: ENERGY BEAMFORMING, RELAY SCHEDULING, AND AGE OF INFORMATION WENZHU...
This paper studies intelligent reflecting surface (IRS) aided wireless power transfer (WPT) to batte...
In this paper, we study the fundamental limits of a simultaneous wireless information and power tran...