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Institute Mihailo Pupin today is the result of sixty years of continuous innovation. Since its foundation Institute was the regional leader and in some cases even one of the world leaders in applying new technologies.
Under the name of Central Radio Institute it was founded by Yugoslav Government in 1946. In 1959 the Institute’s name was changed in Telecommunication and Automation Institute “Mihailo Pupin”. From 1959 to 2007 Institute “Mihailo Pupin” has undergone several organizational forms. In 1968 the Institute is switched from budget financing to self-financed organization, and was simultaneously thoroughly restructured and reorganized. Today Institute is a state owned company but entirely market oriented.
Institute Mihailo Pupin has founded several companies for various programmes in ICT including hardware and software solutions for Digital Control Systems, Management Information Systems, Traffic management including Pay-toll Systems, Security and data protection, Telecommunications, production of frequency control products, etc.
Here we present a list of our most significant achievements during past six decades. This list, although incomplete, reflects the exceptional diversity of the Institute’s research, development and production programs.
| 2012: | - Closed toll collection system on Jošanica – Kakanj motorway in Bosnia and Herzegovina |
| 2011: | - VIEW4Synoptics module of VIEW4 SCADA system – new software solution for dynamic mimic board |
| 2010: | - Turbine governing system |
| 2009: | - View 4 SCADA – Toll collection system and video surveillance on the bridge Mareshal Mobutu in DR Congo – Information System for Ministry of Finance – Tax Administration |
| 2008: | - Information System for Ministry of Finance – Administration for the Prevention of Money Laundering |
| 2007: | - Information System for Local Tax Administration Office – Omnisight – Distributed Graphical Display System |
| 2006: | - Integrated control of technical airport systems – Computer /Controlled Thermal Power Plant Operation (DCS) – Participation in three FP6 projects (SARIB, PROMETEA and Web4WeB), and two Interreg/CADSES projects (I2E and STRiM) |
| 2005: | - Integrated control of technical airport systems – Computer /Controlled Thermal Power Plant Operation (DCS) – Participation in three FP6 projects (SARIB, PROMETEA and Web4WeB), and two Interreg/CADSES projects (I2E and STRiM) |
| 2004: | - Digital Control Systems for Thermal Power Plants Operation, Digital Power Line |
| 2003: | - Cyber School – Web Based Learning Environment |
| 2002: | - Investment planning and decision making tool – IVP – Joint Project Office with Fraunhofer FIRST |
| 2001: | - Digital crypto solution for secure telephony |
| 1998: | - European corn genetic data base – Automatic Vehicle Location system |
| 1996: | - Image processing tools for visual quality inspection |
| 1995: | - Locomotive control and data acquisition system – Microscopic image processing and analyzing solution |
| 1994: | - Active prosthesis for above-knee amputates |
| 1993: | - Piezotechnology-based sugar massecuite concentration meter |
| 1992: | - BEST – software tool for building expert systems with “blackboard” architecture – Process control computer ATLAS |
| 1991: | - Pulsator for mechanical testing of devices – Software package for simulation and development of control systems, SIDECS |
| 1989: | - ZEBRA traffic management program |
| 1988: | - DSP-based voice band modems – Microprocessor control of electrohydraulic and electromagnetic step motors – 32-bit microcomputer system TIM 600 |
| 1987: | - Development strategy for “Crvena Zastava” the largest car factory in Yugoslavia |
| 1986: | - Telecommunication parameters of high-voltage power lines calculation software – NEHOM |
| 1985: | - Ultra-precise Wattmeter with error less than .005% – Development strategy for “Crvena Zastava” the largest car factory in Yugoslavia – Development of 2400 bps HF radio modem |
| 1984: | - Software for mathematical modeling and control synthesis of manipulation and locomotion robots |
| 1983: | - Microprocessor-based modem PP-4800 – Electronic watthour meter – Real-time image generation computer system for simulators |
| 1982: | - Microprocessor elevator controller – Active arm othosis for patients suffering from dystrophy |
| 1980: | - Military aircraft simulator – Artificial arm for dystrophic patients |
| 1978: | - Anthropomorphic industrial robot UMS-1 |
| 1977: | - 600 KW hydrodynamic separation device |
| 1975: | - High-accuracy electronic transducers |
| 1973: | - First integrated semiconductor traffic-lights |
| 1972: | - 1200 bps data transmission modem for telephone lines |
| 1971: | - Active exoskeleton for paraplegics; Hybrid computer system HRS-100 |
| 1970: | - Computer-aided design of electric filters |
| 1968: | - Device for simultaneous voice and data transmission TGT |
| 1967: | - Transistor computer CER-22 for business applications |
| 1966: | - Electromagnetic flowmeter |
| 1965: | - Capacitive level meter |
| 1964: | - Computer program for system optimization by dynamic programming |
| 1963: | - Hydrodynamic separation device – Temperature-compensating crystal oscillator (TXCO) |
| 1962: | - Power Line Carrier device for signal transmission over high-voltage lines |
| 1961: | - Transistor-based telemetry system – Quartz crystal filter for frequency selection |
| 1960: | - The first digital computer with electronic tubes CER-10 |
| 1958: | - Ionosphere parameters recording device |
| 1956: | - The first quartz crystal unit for frequency stabilization |
