Difference between revisions of "Projects:2021s1-13482 Nanoscale Devices for 6G Technologies"
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=== 6G Requirements === | === 6G Requirements === | ||
As 5G initiated, many organizations have already defined the 6G system in various ways. A difference that distinguishes 6G telecommunication technology from its predecessors is that 6G technology can access into Terahertz frequency range. The development of 6G technology does not only mean the revolution of telecommunication technology, it also means the speed of wireless data transmission technology will be progressed significantly. The following table shows the comparison of 4G, 5G and 6G network systems. | As 5G initiated, many organizations have already defined the 6G system in various ways. A difference that distinguishes 6G telecommunication technology from its predecessors is that 6G technology can access into Terahertz frequency range. The development of 6G technology does not only mean the revolution of telecommunication technology, it also means the speed of wireless data transmission technology will be progressed significantly. The following table shows the comparison of 4G, 5G and 6G network systems. | ||
− | {| class="Key Technical performance for 6G system and a comparison of the 6G KPIs relative to those for 5G and 4G systems | + | {| class="wikitable" |
− | + | |+ Key Technical performance for 6G system and a comparison of the 6G KPIs relative to those for 5G and 4G systems | |
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− | ! | + | ! '''KPI''' !! 4G !! 5G !! 6G |
|- | |- | ||
− | | | + | | Operating Bandwidth || Up to 400 MHz || Up to 400 MHz for sub-6 GHz bands Up to 3.25 GHz for mm-Wave bands || Up to 400 MHZ for suv-6 GHz bands Up to 3.25 GHz for mm-Wave bands |
|- | |- | ||
− | | | + | | Peak Data Rate || 300 Mbps with 4x4 arrays, 150 Mbps with 2x2 array antenna || 20 Gbps || ≥1 Tbps (Terahertz frequency range) |
|- | |- | ||
− | | | + | | Mobility|| 350 km/h || 500 km/h || 1000km/h |
|} | |} | ||
Revision as of 14:24, 21 October 2021
In telecommunications, 6G is the 6th generation standard for telecommunication that is currently under research and development for wireless communication technologies for supporting cellular data networks. It is the successor of the 5G network and will be significantly faster. The development of 6G communication technologies requires new devices that will access into Terahertz spectral range.
Contents
Introduction
Compared to 5G, the most outstanding difference between 5G and 6G is that 6G communication technology will access into Terahertz(THz) spectral range. To access the terahertz frequency spectral, we need electronic devices that can operate in the terahertz frequency environment. Some high-speed electronic devices such as High Electron Mobility Transistor (HEMT) has already been used at the top edge of the communication devices, and the result is successful. However, other high-speed electronic devices such as Heterogeneous Bipolar Transistors (HBTs), Resonance Tunneling Diodes (RTDs) have even better high-frequency performance.
Project team
Project students
- Zicong Wen
- Jiayue Liang
Supervisors
- Professor Nelson Tansu
Objectives
This project aims to research electronic devices that can support the 6G wireless telecommunication technology standard and analyse the frequency performance of the researched devices. Two devices were researched in this project, Heterogeneous Bipolar Transistor and Resonance Tunnelling Diode
Background
6G Requirements
As 5G initiated, many organizations have already defined the 6G system in various ways. A difference that distinguishes 6G telecommunication technology from its predecessors is that 6G technology can access into Terahertz frequency range. The development of 6G technology does not only mean the revolution of telecommunication technology, it also means the speed of wireless data transmission technology will be progressed significantly. The following table shows the comparison of 4G, 5G and 6G network systems.
KPI | 4G | 5G | 6G |
---|---|---|---|
Operating Bandwidth | Up to 400 MHz | Up to 400 MHz for sub-6 GHz bands Up to 3.25 GHz for mm-Wave bands | Up to 400 MHZ for suv-6 GHz bands Up to 3.25 GHz for mm-Wave bands |
Peak Data Rate | 300 Mbps with 4x4 arrays, 150 Mbps with 2x2 array antenna | 20 Gbps | ≥1 Tbps (Terahertz frequency range) |
Mobility | 350 km/h | 500 km/h | 1000km/h |
Method
Results
Conclusion
References
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.
[2] ...
Background
Topic 1
Method
Results
Conclusion
References
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.
[2] ...