Projects - User contributions [en]

Projects:2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-10T08:54:29Z

A1706477: /* Supervisors */

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]
== Introduction ==
Project description here
== Abstract ==
The terahertz range spans 0.1 and 10 THz. It defines a transition between the electronics and photonics domains - the frequency range is at the upper bound of electronics and the lower bound of photonics. For this very reason, in the past the band has been perceived as a terahertz gap due to the lack of efficient generation and detection approaches. Over a few decades, a myriad of sources and detectors have become mature to tap into unique opportunities in this frequency range.
This project is divided into two interrelated parts:
* One unique property of terahertz waves is their ability to penetrate dry & non-metallic materials such as clothes, plastics, cardboards, and ceramics. Therefore, terahertz imaging can yield extra information of a subject at millimetre resolution. Here, we will employ terahertz imaging to tackle an important issue in cattle livestock farming. The students will gain experience in a terahertz imaging system.

* Another potential application is stand-off seeing-through radar detection for security purposes. Weaponry or contraband hidden under cloth could be detected from afar without involving harmful X-ray radiation. This project will embark on measuring the monostatic radar cross section of knives and guns at the frequency range of 220-330 GHz where the atmospheric absorption is relatively low. The project will establish a knowledge base for future development of terahertz radar.
=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek
==== Supervisors ====
* Dr. Withawat Withayachumnankul
* Dr. Wendy Suk Ling Lee

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-10T08:46:24Z

A1706477:

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]

== Introduction ==
Project description here

== Abstract ==
The terahertz range spans 0.1 and 10 THz. It defines a transition between the electronics and photonics domains—the frequency range is at the upper bound of electronics and the lower bound of photonics. For this very reason, in the past the band has been perceived as a terahertz gap due to the lack of efficient generation and detection approaches. Over a few decades, a myriad of sources and detectors have become mature to tap into unique opportunities in this frequency range.This project is divided into two interrelated parts:
* One unique property of terahertz waves is their ability to penetrate dry & non-metallic materials such as clothes, plastics, cardboards, and ceramics. Therefore, terahertz imaging can yield extra information of a subject at millimetre resolution. Here, we will employ terahertz imaging to tackle an important issue in cattle livestock farming. The students will gain experience in a terahertz imaging system.

* Another potential application is stand-off seeing-through radar detection for security purposes. Weaponry or contraband hidden under cloth could be detected from afar without involving harmful X-ray radiation. This project will embark on measuring the monostatic radar cross section of knives and guns at the frequency range of 220-330 GHz where the atmospheric absorption is relatively low. The project will establish a knowledge base for future development of terahertz radar.

=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek

==== Supervisors ====
* Withawat Withayachumnankul
* Wendy Suk Ling Lee

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Relevant Work ==

The section covers related work in the areas of Terahertz Imaging.

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

Projects:2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-10T08:45:31Z

A1706477: Created page with "Category:Projects Category:Final Year Projects 106 == Introduction == Project description here == Abstract == The terahertz range spans 0.1 and 10..."

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]
== Introduction ==
Project description here
== Abstract ==
The terahertz range spans 0.1 and 10 THz. It defines a transition between the electronics and photonics domains - the frequency range is at the upper bound of electronics and the lower bound of photonics. For this very reason, in the past the band has been perceived as a terahertz gap due to the lack of efficient generation and detection approaches. Over a few decades, a myriad of sources and detectors have become mature to tap into unique opportunities in this frequency range.
This project is divided into two interrelated parts:
* One unique property of terahertz waves is their ability to penetrate dry & non-metallic materials such as clothes, plastics, cardboards, and ceramics. Therefore, terahertz imaging can yield extra information of a subject at millimetre resolution. Here, we will employ terahertz imaging to tackle an important issue in cattle livestock farming. The students will gain experience in a terahertz imaging system.

* Another potential application is stand-off seeing-through radar detection for security purposes. Weaponry or contraband hidden under cloth could be detected from afar without involving harmful X-ray radiation. This project will embark on measuring the monostatic radar cross section of knives and guns at the frequency range of 220-330 GHz where the atmospheric absorption is relatively low. The project will establish a knowledge base for future development of terahertz radar.
=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek
==== Supervisors ====
* Withawat Withayachumnankul
* Wendy Suk Ling Lee

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-09T03:41:14Z

A1706477: /* Abstract */

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]

== Introduction ==
Project description here

== Abstract ==
The terahertz range spans 0.1 and 10 THz. It defines a transition between the electronics and photonics domains—the frequency range is at the upper bound of electronics and the lower bound of photonics. For this very reason, in the past the band has been perceived as a terahertz gap due to the lack of efficient generation and detection approaches. Over a few decades, a myriad of sources and detectors have become mature to tap into unique opportunities in this frequency range.This project is divided into two interrelated parts:
* One unique property of terahertz waves is their ability to penetrate dry & non-metallic materials such as clothes, plastics, cardboards, and ceramics. Therefore, terahertz imaging can yield extra information of a subject at millimetre resolution. Here, we will employ terahertz imaging to tackle an important issue in cattle livestock farming. The students will gain experience in a terahertz imaging system.

* Another potential application is stand-off seeing-through radar detection for security purposes. Weaponry or contraband hidden under cloth could be detected from afar without involving harmful X-ray radiation. This project will embark on measuring the monostatic radar cross section of knives and guns at the frequency range of 220-330 GHz where the atmospheric absorption is relatively low. The project will establish a knowledge base for future development of terahertz radar.

=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek

==== Supervisors ====
* Withawat Withayachumnankul

==== Advisors ====
* Wendy Suk Ling Lee

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Relevant Work ==

The section covers related work in the areas of Terahertz Imaging.

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-09T03:40:48Z

A1706477:

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]

== Introduction ==
Project description here

== Abstract ==
The terahertz range spans 0.1 and 10 THz. It defines a transition between the electronics and photonics domains—the frequency range is at the upper bound of electronics and the lower bound of photonics. For this very reason, in the past the band has been perceived as a terahertz gap due to the lack of efficient generation and detection approaches. Over a few decades, a myriad of sources and detectors have become mature to tap into unique opportunities in this frequency range.This project is divided into two interrelated parts:
* One unique property of terahertz waves is their ability to penetrate dry & non-metallic materials such as clothes, plastics, cardboards, and ceramics. Therefore, terahertz imaging can yield extra information of a subject at millimetre resolution. Here, we will employ terahertz imaging to tackle an important issue in cattle livestock farming. The students will gain experience in a terahertz imaging system.
*Another potential application is stand-off seeing-through radar detection for security purposes. Weaponry or contraband hidden under cloth could be detected from afar without involving harmful X-ray radiation. This project will embark on measuring the monostatic radar cross section of knives and guns at the frequency range of 220-330 GHz where the atmospheric absorption is relatively low. The project will establish a knowledge base for future development of terahertz radar.

=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek

==== Supervisors ====
* Withawat Withayachumnankul

==== Advisors ====
* Wendy Suk Ling Lee

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Relevant Work ==

The section covers related work in the areas of Terahertz Imaging.

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-09T03:36:16Z

A1706477:

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]
Abstract here
== Introduction ==
Project description here

=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek

==== Supervisors ====
* Withawat Withayachumnankul

==== Advisors ====
* Wendy Suk Ling Lee

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Relevant Work ==

The section covers related work in the areas of Terahertz Imaging.

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-09T03:33:30Z

A1706477: /* Advisors */

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]
Abstract here
== Introduction ==
Project description here

=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek

==== Supervisors ====
* Withawat Withayachumnankul

==== Advisors ====
* Wendy Suk Ling Lee

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-09T03:33:15Z

A1706477: /* Supervisors */

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]
Abstract here
== Introduction ==
Project description here

=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek

==== Supervisors ====
* Withawat Withayachumnankul

==== Advisors ====
*
*

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-09T03:31:35Z

A1706477: /* Project students */

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]
Abstract here
== Introduction ==
Project description here

=== Project team ===
==== Project students ====
* Jorge López Fernández
* Phillip Panek

==== Supervisors ====
* <Supervisor 1's name>
* <Supervisor 2's name>
* <External Supervisor's name> (<Company Name>)
==== Advisors ====
*
*

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...

2019s1-176 Terahertz Waves for Imaging and Radar Cross Section Measurement

2019-04-09T03:20:37Z

A1706477: Created page with "Category:Projects Category:Final Year Projects 106 Abstract here == Introduction == Project description here === Project team === ==== Project stu..."

[[Category:Projects]]
[[Category:Final Year Projects]]
[[Category:2018s1|106]]
Abstract here
== Introduction ==
Project description here

=== Project team ===
==== Project students ====
* <Student 1's name>
* <Student 2's name>
* <Student 3's name>
==== Supervisors ====
* <Supervisor 1's name>
* <Supervisor 2's name>
* <External Supervisor's name> (<Company Name>)
==== Advisors ====
*
*

=== Objectives ===
Set of objectives

== Background ==
=== Topic 1 ===

== Method ==

== Results ==

== Conclusion ==

== References ==
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...