Engineering:Telecommunication Instructional Modeling System

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Short description: Electronic telecommunications device
Telecommunication Instructional Modeling System
EMONA TIMS301 w student.png
EMONA TIMS301 with student
TypeTelecommunications Training Device
InventorTim Hooper
Inception1971
ManufacturerEmona
AvailableYes
Websitehttps://www.emona-tims.com/

TIMS, or Telecommunication Instructional Modeling System, is an electronic device invented by Tim Hooper and developed by Australian engineering company Emona Instruments that is used as a telecommunications trainer in educational settings and universities.[1][2][3]

History

TIMS was designed at the University of New South Wales by Tim Hooper in 1971. It was developed to run student experiments for electrical engineering communications courses.[4][5] Hooper’s concept was developed into the current TIMS model in the late 1980s.[6][7] In 1986, the project won a competition organized by Electronics Australia for development work using the Texas Instruments TMS320.[8][9] Emona Instruments also received an award for TIMS at the fifth Secrets of Australian ICT Innovation Competition.[9]

Methodology

TIMS Methodology Diagram
TIMS Methodology Diagram

TIMS uses a block diagram-based interface for experiments in the classroom. It can model mathematical equations to simulate electric signals, or it can use block diagrams to simulate telecommunications systems.[4][7][10] It uses a different hardware card to represent functions for each block of the diagram.[11]

TIMS consists of a server, a chassis, and boards that can emulate the configurations of a telecommunications system.[12] It uses electronic circuits as modules to simulate the components of analog and digital communications systems.[13][14] The modules can perform different functions such as signal generation, signal processing, signal measurement, and digital signal processing.[10][13]

Variants

The block diagram approach to modeling the mathematics of a telecommunication system has also been ported across to other domains.[15][16]

Simulation

Where the blocks are patched together onscreen to mimic the hardware implementation but with a simulation engine (known as TutorTIMS).[15][16]

Remote access

It can be used by multiple students at once across the internet or LAN via a browser based client screen. This utilises a statistical time division multiplexing architecture in the control unit. The method is applied both to Telecommunications and Electronics Laboratories (known as netCIRCUITlabs).[15][16]

V References

  1. Sarfaraz, Maysam (2011-05-01). Educational Applications of Partial Reconfiguration of FPGAs (Master's thesis). University of Tennessee at Chattanooga.
  2. Silva, Mário Marques da (2018-09-03) (in en). Cable and Wireless Networks: Theory and Practice. CRC Press. ISBN 978-1-4987-5154-4. https://books.google.com/books?id=A6x-DwAAQBAJ&q=emona+tims&pg=PT23. 
  3. (in en) ASEE Annual Conference Proceedings. American Society for Engineering Education. 2004. https://books.google.com/books?id=vmRGAAAAYAAJ&q=emona+tims. 
  4. 4.0 4.1 "Using Telecommunication Instructional Modelling System (TIMS) in Communications Systems Course". American Association for Engineering Education Paper ID #18924. 2017. https://peer.asee.org/using-telecommunication-instructional-modelling-system-tims-in-communications-systems-course.pdf. 
  5. Hooper, T. L. (1973-08-01). "Telecommunications Systems Modeling in the Laboratory". IEEE Transactions on Education 16 (3): 148–152. doi:10.1109/TE.1973.4320828. ISSN 1557-9638. Bibcode1973ITEdu..16..148H. https://ieeexplore.ieee.org/document/4320828. 
  6. "NJIT- EE495 : Introduction to Modeling with TIMS". https://web.njit.edu/~gilhc/EE495/TIMS.htm. 
  7. 7.0 7.1 Breznik, Alfred (2004-01-30). "Hands-on learning system for Wireless laboratory courses". Proceedings of the 2004 American Society for Engineering Education Annual Conference & Exposition: 9.658.1–9.658.5. https://peer.asee.org/hands-on-learning-system-for-wireless-laboratory-courses.pdf. 
  8. Wierer, Jay; Chandler, Edward (June 2011). "Analog and Digital Communications Laboratory Experiments Using Emona TIMS". 2011 ASEE Annual Conference & Exposition Proceedings: 22.203.1–22.203.12. doi:10.18260/1-2--17484. 
  9. 9.0 9.1 "Sticisce avstralskih Slovencev - Slovenian network in Australia". http://www.glasslovenije.com.au/aktualno/emonaAward2007.htm. 
  10. 10.0 10.1 Breznik, Alfred (2004-10-01). TIMS-301 USER MANUAL. Emona Instruments Pty Ltd. http://ecelabs.njit.edu/ece489/misc/tims301_user_manual.pdf. 
  11. Purani, Abhilash M. (2010-04-23). An Evaluation of Low Cost FPGA-Based Software Defined Radios for Education and Research (Master's thesis). University of Tennessee at Chattanooga.
  12. Sandoval, Jose R Santamaria (2020-04-01). "Application of the EMONA TIMS platform for the Telecomunications Engineering career at UNED Costa Rica". Engineering Education. https://www.researchgate.net/publication/349042618. 
  13. 13.0 13.1 Khan, Muhammad Ajmal (2018-06-01). "Enhancing Students' Lab Experiences using Simulink-based Pre-Labsof Corresponding Hardware-based Labs". Proceedings of the 2018 ASEE North Central Section Conference. http://people.cst.cmich.edu/yelam1k/asee/proceedings/2018/1/69.pdf. 
  14. Sakovičs, Ričards (2019). Digital-to-analog and Analog-to-digital Converter Operational Research (Bachelor's thesis). Riga Technical University.
  15. 15.0 15.1 15.2 Jeřábek, Josef (2008-11-02). Optimalizace telekomunikačního výukového prostředí (Master's thesis). Vysoké učení technické v Brně.
  16. 16.0 16.1 16.2 Veettil, Binesh Puthen; Payne, David; Bagnall, Darren; Cetin, Ediz (2020-12-01). "Quantifying and Improving Student Engagement with Remotely Accessible Laboratory Project Hardware (RALPH)". 2020 IEEE International Conference on Teaching, Assessment, and Learning for Engineering (TALE). pp. 714–718. doi:10.1109/TALE48869.2020.9368478. ISBN 978-1-7281-6942-2. https://ieeexplore.ieee.org/document/9368478. 

External links



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