Velmenni - Physical Layer Developer
PHY Layer Engineer
- Wireless & Optical Wireless Communications Signal Processing FPGA
- Function Research & Development - Optical Wireless PHY
- Level Senior Physical Layer Developer
- Education M.Tech / M.S. / Ph.D. - ECE, EE, Signal Processing
- Experience 4-8 years PhD counts as experience
- Location On-site
Velmenni is a leading Optical Wireless Communication (OWC) company developing LiFi and Free-Space Optical (FSO) technologies for next-generation high-speed wireless networks. We combine communication theory, signal processing, FPGA acceleration, and photonics to build real-world optical communication systems. Our team works across the full innovation cycle-from research and simulation to hardware prototyping and deployment-creating technologies that complement and extend traditional RF-based wireless networks. This is an R&D position. You will own the design, development, and experimental validation of physical layer algorithms for LiFi and Free-Space Optical (FSO) communication systems - from theoretical formulation and simulation through to FPGA prototyping. Publishing and prototyping are both expected.
Responsibilities
Design and develop PHY algorithms for LiFi and FSO - modulation (OOK, PPM, DCO-OFDM, ACO-OFDM), channel coding (LDPC, Polar, RS), and synchronisation
Model and simulate optical wireless channels: atmospheric turbulence, pointing errors, IM/DD receiver noise, ambient light interference, and LED/laser non-linearities
Build end-to-end link-level simulation chains in MATLAB or Python and evaluate BER, throughput, and spectral efficiency under realistic conditions
Implement validated algorithms on FPGA - translate fixed-point models into RTL or HLS; own algorithm correctness through hardware validation
Write bit-exact C/C++ reference models to support hardware verification
Track and engage with relevant standards: IEEE 802.11bb (LiFi), ITU-T FSO, and adjacent wireless standards Required
M.Tech, M.S., or Ph.D. in ECE, Electrical Engineering, Signal Processing, or a related field - thesis or research in optical wireless, VLC, or wireless communications is a strong indicator Strong fundamentals in digital communications: modulation, channel coding, detection, estimation, and synchronisation
Hands-on experience building PHY simulations from scratch in MATLAB or Python - not just toolboxes
Solid understanding of OFDM: multipath channels, cyclic prefix, pilot design, and channel estimation
Fixed-point thinking - ability to design algorithms aware of hardware quantisation and implementation cost FPGA awareness: understand LUT/DSP/BRAM trade-offs, pipelining, and timing well enough to make hardware-friendly algorithm decisions
Familiarity with VHDL or Verilog to write or review RTL for PHY blocks
Exposure to AMD/Xilinx Vivado - simulation, synthesis, and reading timing and resource reports
Working knowledge of at least one wireless or optical wireless standard; ability to read and implement from spec documents
Preferred
Experience with 3Gpp, IEEE 802.11bb (LiFi) or ITU FSO link specifications
Optical channel modelling: log-normal turbulence, Gamma-Gamma distribution, pointing error statistics
LED non-linearity, predistortion, and flicker mitigation for VLC systems
Optical MIMO, spatial diversity techniques, and APD / PIN photodetector front-end modelling
Cellular or 5G NR PHY background - OFDM, LDPC, channel coding chain
SDR platforms: Ettus USRP and GNU Radio for over-the-air prototyping
Linux environment and Python / Bash scripting for toolchain automation
Vitis HLS or OpenCL-based FPGA acceleration flows
Publications in IEEE Photonics, IEEE Communications Letters, JOCN, or equivalent venues
Research Profile
We are open to two archetypes: M.Tech or PhD with thesis in VLC, OWC, optical OFDM, or wireless channel modelling - research output matters more than years of industry experience Wireless PHY engineer from industry looking to move into R&D - trainable on the optical wireless domain if the PHY and FPGA fundamentals are strong
Employment Type: FULL_TIME