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Line 13: == 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.<ref name=":0">{{Cite journal\|date=2017\|title=Using Telecommunication Instructional Modelling System (TIMS) in Communications Systems Course\|url=https://peer.asee.org/using-telecommunication-instructional-modelling-system-tims-in-communications-systems-course.pdf\|journal=American Association for Engineering Education\|volume=Paper ID #18924}}</ref><ref>{{Cite journal\|last=Hooper\|first=T. L.\|date=1973-08-01\|title=Telecommunications Systems Modeling in the Laboratory\|url=https://ieeexplore.ieee.org/document/4320828\|journal=IEEE Transactions on Education\|volume=16\|issue=3\|pages=148–152\|doi=10.1109/TE.1973.4320828\|bibcode=1973ITEdu..16..148H\|issn=1557-9638}}</ref> Hooper’s concept was developed into the current TIMS model in the late 1980s.<ref>{{Cite web\|title=NJIT- EE495 : Introduction to Modeling with TIMS\|url=https://web.njit.edu/~gilhc/EE495/TIMS.htm\|access-date=2021-08-13\|website=web.njit.edu}}</ref><ref name=":3">{{Cite journal\|last=Breznik\|first=Alfred\|date=2004-01-30\|title=Hands-on learning system for Wireless laboratory courses\|url=https://peer.asee.org/hands-on-learning-system-for-wireless-laboratory-courses.pdf\|journal=Proceedings of the 2004 American Society for Engineering Education Annual Conference & Exposition\|pages=9.658.1–9.658.5}}</ref> In 1986, the project won a competition organized by [[Electronics Australia]] for development work using the [[Texas Instruments TMS320]].<ref name=":6">{{~~Cite~~cite journal \|last1=Wierer \|first1=J.Jay \|last2=Chandler \|first2=~~E.\|date=2011~~Edward \|title=ACAnalog ~~2011-2298:~~and ~~ANALOG~~Digital ~~AND~~Communications ~~DIGITAL~~Laboratory ~~COMMUNICATIONS~~Experiments ~~LABORATORY~~Using ~~EXPERIMENTS USING EMONA~~Emona TIMS \|~~url~~journal=~~https://www.semanticscholar.org/paper/AC-~~2011~~-2298%3A-ANALOG-AND-DIGITAL-COMMUNICATIONS-Wierer-Chandler/a994377561f2371366abb37c5803b92c26d590ca~~ ASEE Annual Conference & Exposition Proceedings \|~~url-status~~date=~~live~~June 2011 \|~~language~~pages=en22.203.1–22.203.12 \|~~access-date~~doi=~~2021~~10.18260/1-072-~~08\|website=semanticscholar.org~~-17484 \|s2cid=54537460 }}</ref><ref name=":7" /> Emona Instruments also received an award for TIMS at the fifth Secrets of Australian ICT Innovation Competition.<ref name=":7">{{Cite web\|title=Sticisce avstralskih Slovencev - Slovenian network in Australia\|url=http://www.glasslovenije.com.au/aktualno/emonaAward2007.htm\|access-date=2021-07-08\|website=www.glasslovenije.com.au}}</ref> == Methodology == 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.<ref name=":0" /><ref name=":3" /><ref name=":1">{{Cite journal\|last=Breznik\|first=Alfred\|date=2004-10-01\|title=TIMS-301 USER MANUAL\|url=http://ecelabs.njit.edu/ece489/misc/tims301_user_manual.pdf\|journal=Emona Instruments Pty Ltd}}</ref> It uses a different hardware card to represent functions for each block of the diagram.<ref>{{Cite journal\|last=Purani\|first=Abhilash M.\|date=2010-04-23\|title=AN EVALUATION OF LOW COST FPGA-BASED SOFTWARE DEFINED RADIOS FOR EDUCATION AND RESEARCH\|url=https://scholar.utc.edu/cgi/viewcontent.cgi?article=1509&context=theses\|journal=A Thesis Presented for the Master of Science Degree the University of Tennessee at Chattanooga}}</ref>

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