This article, Telecommunication Instructional Modeling System, has recently been created via the Articles for creation process. Please check to see if the reviewer has accidentally left this template after accepting the draft and take appropriate action as necessary.
Reviewer tools: Inform author |
TIMS, or Telecommunication Instructional Modeling System, is an electronic device developed by Emona that is used as a telecommunications trainer in educational settings and universities.[1][2][3]
History
TIMS was designed at the University of South Wales by Tim Hooper in 1971. It was developed to run student experiments for electrical engineering communications courses.[4] Hooper’s concept was developed into the current TIMS model in the late 1980s.[5] In 1986, the TIMS project won a competition organized by Electronics Australia for development work using the Texas Instruments TMS320.[4] Emona Instruments also received an award for TIMS at the fifth Secrets of Australian ICT Innovation Competition.[6]
Methodology
TIMS uses a block diagram-based interface for experiments in the classroom. TIMS can model mathematical equations to simulate electric signals, or it can use block diagrams to simulate telecommunications systems.[7][18] It uses a different hardware card to represent functions for each block of the diagram.[8]
TIMS consists of a server, a chassis, and boards that can emulate the configurations of a telecommunications system.[9] TIMS uses electronic circuits as modules to simulate the components of analog and digital communications systems.[10][11] TIMS modules can perform different functions such as signal generation, signal processing, signal measurement, and digital signal processing.[10][7]
References
- ^ Sarfaraz, Maysam (2011-05-01). "EDUCATIONAL APPLICATIONS OF PARTIAL RECONFIGURATION OF FPGAS". Thesis from University of Tennessee at Chattanooga.
- ^ Silva, Mário Marques da (2018-09-03). Cable and Wireless Networks: Theory and Practice. CRC Press. ISBN 978-1-4987-5154-4.
- ^ Conference, American Society for Engineering Education (2004). ASEE Annual Conference Proceedings. American Society for Engineering Education.
- ^ a b Manfredini, Carlo (1987-06-01). "TIMS: Prize-Winning Learning System for Communications" (PDF). Electronics Australia: 96.
- ^ Breznik, Alfred (2004-01-30). "Hands-on learning system for Wireless laboratory courses" (PDF). Proceedings of the 2004 American Society for Engineering Education Annual Conference & Exposition: 9.658.1-9.658.5.
- ^ "Sticisce avstralskih Slovencev - Slovenian network in Australia". www.glasslovenije.com.au. Retrieved 2021-07-08.
- ^ a b Breznik, Alfred (2004-10-01). "TIMS-301 USER MANUAL" (PDF). EMONA INSTRUMENTS PTY LTD.
- ^ Purani, Abhilash M. (2010-04-23). "AN EVALUATION OF LOW COST FPGA-BASED SOFTWARE DEFINED RADIOS FOR EDUCATION AND RESEARCH". A Thesis Presented for the Master of Science Degree The University of Tennessee at Chattanooga.
- ^ Sandoval, Jose R Santamaria (2020-04-01). "Application of the EMONA TIMS platform for the Telecomunications Engineering career at UNED Costa Rica". Engineering Education.
- ^ a b Khan, Muhammad Ajmal (2018-06-01). "Enhancing Students' Lab Experiences using Simulink-based Pre-Labsof Corresponding Hardware-based Labs" (PDF). Proceedings of the 2018 ASEE North Central Section Conference.
- ^ Sakovičs, Ričards (2019). "Digital-to-analog and Analog-to-digital Converter Operational Research".
{{cite journal}}: Cite journal requires|journal=(help)