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Research on Indoor Millimeter Wave Channel Modeling

Sun, 22 Aug 2021 00:00:00 +0000

Operation and Use of Experimental Instruments

1.General test process

2.Microwave chamber test system

3.GNU Radio & USRP X310

4.Vector network analyzer

5.Automatic turntable, scanning frame

Channel Measurement and Modeling

Full-angle space measurement

1.Full-angle domain space theory and measured results

2.Reflection diameter amplitude and phase measurement

3.Amplitude and phase measurement of primary reflection diameter for different building materials

IRS

Fri, 23 Jul 2021 00:00:00 +0000

This paper combs the basic contents of IRS.

Research Background

Proposal and new changes of 6G

Future applications have higher requirements for communication systems: storage capacity; Data rate, communication reliability, etc. Including the possible large-scale industrial Internet of things in the future, the requirements of the Internet of vehicles have not been fully met
Although 5G technology has been developed, there are still many deficiencies in cost, energy consumption and design complexity, and there are certain problems in practical application

The IRS actively changes the wireless channel from bottom to top, instead of passively adapting

Basic concepts of IRS

The most fundamental difference from the current technology is reflecting. In essence, the current technology is based on the concept of transmission and reception rather than reflection.

Intelligent in IRS is two-sided:

The intelligent reflection unit is reconfigurable in hardware;
The signal processing, beamforming, artificial intelligence and convex optimization design related to IRS are also intelligent in software.

Structure of IRS

The first layer is a surface directly in contact with the electromagnetic wave, and there are many reflection units on it. The direction of the incident wave can be adjusted by controlling the reflection phase of the reflection units;

The second layer is the contact back plate, which is mainly used to prevent the leakage of electromagnetic wave signals behind the reflection surface and improve the reflection efficiency;

The third layer is used to modulate the reflection surface and the controller. The controller can be made of FPGA, adjust the phase of the reflection unit on the reflection surface by controlling the output signal Or the controller (by installing some sensors) can also be used for environmental sensing, which can help the reflective surface to switch between the reflective mode and intelligent sensing. For example, the reflection unit is composed of a diode. By adjusting the bias voltage of the diode, the switching of 1-bit phase (such as 0 and π) can be achieved.

Beam shaping of IRS

The above adaptive beamforming needs to control each reflection unit, so it needs to consume a certain amount of energy. However, unlike the existing MIMO, it does not require any radio frequency link.

Each reflection unit is like a point source and emits the received signal

The maximum amplitude of the reflection unit is 1, because it is passive and will not be amplified. The amplitude of 0 is sparse reflection; The amplitude of 1 is total reflection.
We generally hope that the reflection phase can be continuously taken between 0-2 π; However, considering the cost and feasibility in practical application, discrete values can be taken.
For the whole reflection matrix, it is in diag form; Because each reflection unit has an independent influence on the reflected signal.

The above is the introduction of IRS discrete amplitude and phase shift. The general discrete ideas are: uniform quantization. However, even quantization is not necessarily optimal, depending on the actual application scenario. For example, when the reflection amplitude is given 1 bit, the discrete value (0, 1) or (0.5, 1) shall be taken according to the channel statistical characteristics.

Phased reflector : fixed amplitude, phase shift quantization
Amplitude control reflector : phase fixed, amplitude quantization

In comparison, the complexity of amplitude controlled reflector is lower.

Path loss of IRS

In IRS, the formula of path loss is the first; The second one is only applicable to the infinity of the reflection surface (the IRS is used to study the signal reflection of a single reflection unit, so it cannot be considered as infinity) and is not applicable to the phase / amplitude controlled IRS

Application of IRS

The above applications have improved the coverage rate of communication: IRS can bypass obstacles for communication and will be widely used in future high-frequency communication. Like mmWave, the frequency increases and the wavelength decreases. The high-frequency wave is sensitive to the barrier effect of obstacles, and the performance can be improved with the help of IRS.

OAM

Fri, 16 Jul 2021 00:00:00 +0000

Research Background

With the development of the first generation mobile communication network to the fifth generation mobile communication network, in order to cope with the growth of capacity demand, the industry has proposed multiplexing communication technologies based on orthogonal resources such as time, frequency, codeword and space. With the further development of communication technology, the sixth generation mobile communication system will face higher capacity requirements in the future. In recent years, the modal resource based on orbital angular momentum is considered as a new spatial degree of freedom. This paper focuses on the orbital angular momentum wireless communication and studies its mode multiplexing.

Definition of OAM

Angular momentum is composed of spin angular momentum (SAM) and orbital angular momentum (OAM). The spin angular momentum is only related to the spin of photons, and it is in a circularly polarized state. Orbital angular momentum represents the rotation of electrons around the propagation axis, which is generated by the energy flow (described by Poynting vector) rotating around the optical axis. It makes the phase wavefront of the electromagnetic wave in a vortex shape. Therefore, the electromagnetic wave carrying orbital angular momentum is also called vortex electromagnetic wave.

Relevant characteristics of OAM

OAM-MIMO

Analysis of common receiving models

Model performance analysis

The following is the simulation part. First, the analysis of the simulation results of the tilt model. The figure shows the relationship between the system capacity and the tilt angle. It can be seen that with the increase of the tilt angle, the channel capacity shows an overall downward trend.

Channel matrix solution of general model

References

[1] Liao Xi, Zhou Chenhong, Wang Yang, Liao Shasha, Zhou Jihua, Zhang Jie. Research progress of key technologies of orbital angular momentum for wireless communication [J].Electron and Informatics,2020,42(7):1666-1677. [2]ChenR,ZhouH,MorettiM,WangXD,andLiJD.Orbitalangularmomentumwaves:Generation,detection,andemergingapplications[J].IEEE Communications Surveys and Tutorials,2019,22(2):840-868.