1. Naftaly Rugara Muiga, Closed-Loop Transmit Diversity   (Transmit Beamforming) for Mitigation of Interference and Multipath Fading   in Wireless Communication Systems.
  2. Naftaly Rugara Muiga, Application of Multi-antenna Systems in Combating Interference and Multipath Fading in Wireless Communication Systems.
  3. Naftaly Rugara Muiga,  Application of Multi-antenna Systems in Combating Interference and Multipath Fading in Wireless Communication Systems
  4. Naftaly Rugara Muiga, Impact of spatial diversity techniques in combating interference and multipath fading in wireless communication systems
  5. Naftaly Rugara Muiga, Engineering research and innovation as fundamental requirements for industrialization
  6. Oteri M. O, Use of ICT in Manufacturing to Achieve Vision 2030, May 2011
  7. Oteri M. O, Need and Benefits of Manufacturing, May 2011
  8. Oteri M. O, Electronic Components and Equipment Locally Sensitivity to oil by Active Microwave Sensors” May 2011
  9. Oteri M. O,  IPv4 to IPv6 – Transition and Benefits” May 2011
  10. Oteri M. O, Active Microwave Response to Soil Moisture”, June 2007
  11. Oteri M. O, Microwave Response to Soil Moisture Content”, October 2007
  12.  Mureu Ephraim W, Performance analysis of mobile ad hoc network routing protocols
  13. Mureu Ephraim W, Evaluating performance of wrp and aodv manets routing protocols under mobility.
  14. 14. Mureu Ephraim W, Automating selection of mobile ad hoc network  routing protocols using fuzzy logic
  15. Philip Kibet Langat, CAT-7 Cable  Evaluation for Square Kilometre Array Analogue Signal Transport,” SAIEE Africa,Research Journal, Vol. 102, No. 1, March 2011, pp 2-7.
  16. Philip Kibet Langat, Recent Research and Developments for KAT ‐7 RFI Mitigation and EMC
  17. Philip Kibet Langat, Power-line Sparking Noise Characterization in the SKA Environment
  18. Philip Kibet Langat, Investigations Leading to KAT-7 EMC and RFI Mitigation Policies: Relevance for SKA1 Recent Research Associated with KAT-7 RFI and EMC: Implications for SKA1,
  19. Philip Kibet Langat, Power line radiated sparking noise,
  20. Philip Kibet Langat, Characterization of radiated sparking noise, Proceedings University of the Witwatersrand, Johannesburg in the SKA environment, South African SKA / MeerKAT Project, South African ,The Wallenberg Centre
  21. Philip Kibet Langat ,“EMC &RFI Mitigation for Developing Large Systems: Experience from SA’s SKA Demonstrator”, Presented, Broomfield, Colorado, Dec. 2009 (Abstract only)
  22. Philip Kibet Langat , Progress on Analogue Front end for 2PAD
  23. Philip Kibet Langat, Characterization of spark-gap radiated noise,
  24. Philip Kibet Langat, RFI Mitigation for Electronic and Natural SKA
  25. Philip Kibet Langat, Environment Analysis of Aperture Coupled Microstrip Antennas with Arbitrarily Shaped Apertures
  26. Philip Kibet Langat, Design and Analysis of Microstrip-Patch Antennas based on roof-top basis functions.
  27. Philip Kibet Langat, Aperture-fed patch antennas utilizing bowtie-shaped coupling slots
  28. Philip Kibet Langat, Cavity-backed broadwall radiating slots in a rectangular waveguide
  29. Joseph Abok Obadha, Radar Waveform Generation and Optimization based on Chaotic Systems
  30. Joseph Abok Obadha, Non Linear Dynamics and its application in Telecommunication, Proceedings of KSEEE-JSAEM 2010 International Conference, Pg.25-27, vol.1, no.1, August 2010.
  31. Joseph Abok Obadha, “Generation of Ultra Wideband Radar Waveforms based on chaos theory” ,2011 Sustainable Research and Innovation Proceedings, Pages160-164,May 2011
  32. Ephraim W. Mureu, S. Musyoki and Kihato, “ Performance Analysis of Mobile Ad Hoc Network Routing Protocols” Proceedings of Mechanical Engineering Annual Conf, Apr 2010, pages 157-165
  33. Manene F. M, D.B. Konditi, Musyoki S.M., “Design and Implementation of a Coaxial Fed Rectangular Microstrip-Patch Antenna”, KSEEE Int Engineering Conference, 2006, pages 41-47
  34. F.M. Manene, D.B. Konditi, S. M.Musyoki, L.P. Kibet “Design and Analysis of Microstrip Patch Antennabased on Rooftop Basis Functions”, Proceedings of 2006 JKUAT Scientific, Technological and Industrialization Conference, pages 456-465
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  36. Stephen Musyoki et al, “Design of a high power, 2.75  GHz relativistic peniotron oscillator”, JAERI-M 92-153, Oct 1992.
  37. S,Musyoki, K.Sakamoto, A. Watanabe, N. Sato, K. Yokoo, S.Ono, S. Kawasaki, T. Kobayashi, E. Tanabe, and M. Shiho, “Design of a high power 10 GHz Auto Resonant Peniotron Amplifier”, AERI-M 92-071, May 1992