WELCOME TO N2Y - C2RD!

Welcome to the home page of the Nuh Naci Yazgan University Center for Communications Research and Development (N2Y – C2RD). N2Y – C2RD was established on May 29 2015 with the grants received from the Nuh Naci Yazgan University, Texas Instruments, Industrialists in Kayseri and KTU graduates in Kayseri. Currently, N2Y – C2RD has one full-time faculty member, nine undergraduate students conducting research on high-speed wireless/mobile/satellite communications. N2Y – C2RD also has close collaborations and joint projects with the KTU - DSP Lab. and ERU – WCS-RL.

ANNOUNCEMENT

  • Waveform design for 6G and beyond
  • Alternative waveform design to OFDM
  • Visible light communications
  • OFDM index modulation
  • Automatic modulation recognition of communication signals
  • Finding and positioning of the sound sources from the near / far distance
  • Massive MIMO
  • Under collapse alive / dead detection and positioning
  • Signal jamming / analysis
  • Cooperative Communications
  • Cognitive Radio
  • DSP – FPGA

  • MSc, PhD and Post-Doctoral research studies are planned in the above-mentioned topics. Interested candidates should apply to the address specified in the contact page via e-mail and telephone or in person.
    Nuh Naci Yazgan University Department of Electrical and Electronics Engineering

    Research Projects

    • Waveform design for 6G and beyond
    • Massive MIMO design for 5G Mobile Communications
    • Antenna design for millimeter wave communications
    • Antenna design for under collapse alive / dead detection and positioning
    • Electronic nose for determining the position of explosives and narcotics
    • Wireless mine tracking system

    Upcoming Events

    Recent Publications

    • A Novel Waveform Design based on Discrete Sine Transform for 5G and Beyond
    • Channel Tracking Performance of Zero Tail Discrete Cosine Transform Spread OFDM Waveform
    • ZT DWT-S OWDM: A New Waveform for PAPR Reduction
    • A Novel Discrete Wavelet Transform based Coherent Optical OFDM System
    • Zero Tail Unique Word Discrete Sine Transform Spread OFDM
    • Zero Tail Discrete Cosine Transform Spread OFDM Waveform for 5G Systems
    • Single Carrier Frequency Domain Equalizer with Unique Word Prefix
    • Zero-Tail Discrete Wavelet Transform Spread OFDM System for 5G and Beyond
    • A Fast Start-Up Modified LMS Algorithm
    • A Novel Adaptive Variable Forgetting Factor RLS Algorithm
    • An Investigation of the Effects of Different UW Sequences on the PAPR Performance of UW-OFDM Systems
    • A Novel Hybrid OFDM Technique for 5G
    • A Novel Approach for Improving Carrier Frequency Offset Tracking Performance of Frequency Domain Channel Equalizer Employed in OFDM Systems
    • A Novel Approach for Improving Performance of Time Domain Channel Equalizer Employed in Multi Carrier Communication Systems
    • A Novel Single Carrier Frequency Domain Equalizer Based on Discrete Wavelet Transform
    • A Novel Walsh Hadamard Based Approach for Improving Performance of Zero Tail OFDM Systems
    • A Frequency Domain Channel Equalizer for Discrete Wavelet Transform Based OFDM System
    • Fast Convergence Algorithm for Blind Channel Estimation and Equalization using CMF-DFE
    • A Novel Modulation Recognition Technique Based on Artificial Bee Colony Algorithm in the Presence of Multipath Fading Channels.