SenComm - Enabling Real-time 3D Data

Why It Matters

High-resolution Sensing Is No Longer the Bottleneck.

Real-time data transfer is.

The Bottleneck Between Perception and Decision - Why It Matters

Real-time spatial intelligence depends on both sensing and data flow.

What We Build

We build integrated sensing and communication
products for real-time 3D data environments.

Enabling high-resolution LiDAR sensing and ultra-fast wireless optical data transfer to eliminate the bottleneck between perception and decision.

Noble LiDAR™
Optical Module

The Noble LiDAR™ optical module is designed for precise spatial sensing and robust velocity detection in real-world environments.

Its compact photonics architecture improves sensing reliability under low reflectivity, long-range, and dynamic conditions.

Designed for scalable deployment across autonomous mobile systems, robotics, and industrial sensing.

Key Features

Advanced optical sensing architecture for enhanced accuracy and robustness
Improved performance in low SNR and high dynamic environments
Compact optical integration for scalable manufacturing
Designed for autonomous mobile systems, robotics, and industrial sensing

High-Capacity Optical Wireless Communication (OWC) Module

Our OWC module enables ultra-high-bandwidth, low-latency data transfer beyond the limitations of conventional RF systems.

The architecture is optimized for short- to mid-range real-time sensing environments where RF communication faces bandwidth, interference, and scalability challenges.

Designed for machine-to-machine communication, sensor data offloading, and real-time spatial data streaming.

Key Features

Ultra-high bandwidth data transmission beyond RF constraints (> 25 Gbps)
Immunity to electromagnetic interference (EMI-free operation)
Low latency for real-time data-intensive applications
Optimized for short-range, high-density, and localized communication environments
Designed for integration with sensing systems and edge infrastructure

Technology Convergence Synergy

Real-time intelligent systems require both high-resolution sensing and scalable low-latency data transfer.

SENCOMM integrates LiDAR sensing and optical wireless communication into a unified photonics architecture for real-time spatial data environments.

This convergence enables distributed autonomous and industrial systems to operate with higher responsiveness, lower latency, and improved coordination.

Key Features

Real-time 3D data sharing between autonomous mobile systems
High-speed sensor data offloading in smart manufacturing
Distributed perception for collaborative robotics
Edge-connected sensing networks

Applications

Where Sensing Meets Scale

We focus on applications where high-resolution sensing generates massive data in real time.

Autonomous Mobile Systems

High-resolution LiDAR is essential for perception, but data bandwidth and latency remain critical constraints.
Integrated sensing and optical communication technologies enable real-time spatial data sharing for autonomous mobile platforms operating in industrial and logistics environments.

Smart Manufacturing

Modern industrial environments require dense sensor deployment and reliable real-time monitoring under complex electromagnetic conditions.
Our optical communication architecture enables high-speed, EMI-free data transfer with enhanced communication security through confined optical links.

Intelligent Robotics & Edge AI

Collaborative robotic systems require both precise spatial sensing and fast low-latency communication.
By combining photonics-based sensing and optical communication, we support distributed robotic and edge AI environments where real-time coordination and sensor data processing are critical.

Milestones

Key Achievements & Roadmap

From research lab to market-ready intelligent systems.

2022

Company Founded

Established through faculty entrepreneurship by KAIST EE Professor Emeritus. Research team formation completed for optical communication and LiDAR development.

2023

Core Technology Development

Completed fundamental research on FMCW and ToF LiDAR technology. Successfully proved optical wireless communication concept.

Oct 2024

TIPS Program Selection

Selected for the Deep-tech TIPS program for 3-year LiDAR optical module development, receiving government recognition.

Apr 2025

KAIST R&D Partnership

MOU signed with KAIST for joint R&D in advanced photonics and real-time LiDAR-wireless system integration.

2025-2026

Prototype & Validation

Developing Noble LiDAR™ optical module prototype with performance testing and initial market validation through pilot projects.

2026-2027

Commercialization & Deployment

We are building up products, demonstrating prototype (LiDAR+OWC), testing in controlled field environments, and deploying pilot products with industry partners.

About Us

Where Deep-Tech Meets Deployable Systems

From Research to Real-world Deployment

SenComm develops integrated photonics-based systems that combine sensing and communication into a unified architecture.

Founded through faculty entrepreneurship at KAIST, the company combines advanced photonics research with extensive real-world experience in optical communication module development and commercialization.

More than developing isolated technologies, we focus on solving system-level challenges—particularly the gap between high-resolution sensing and real-time data transmission.

Our approach enables scalable, deployable solutions for specific use-case autonomous and industrial platforms.

System-level design, not component-level thinking

Engineering for real-world constraints

Bridging sensing and communication

KAIST-backed deep-tech research

SenComm Silicon-photonics OPA (Optical Phase Array)

SenComm's silicon-photonics OPA (Optical Phase Array) Prototype

Announcements

Let's Build the Future Together

We welcome investors, potential customers, and collaboration partners to create the future together.

Enabling
Real-time 3D Data.
Sensing to Decisions.

High-resolution Sensing Is No Longer the Bottleneck.