OptiPulse LightGrid™

Revolutionary photonic semiconductor technology for optical wireless communication

Ready for Development
Patented Technology
10Gbps+ Wireless
ABDUCTIO Validated (75%)
View Validation Report

Technology Status

invented
patented
fabricated
tested
prototyped
Ready for Product Development

Revolutionary Optical Wireless Technology

A breakthrough in photonic semiconductor technology that enables high-speed, reliable wireless communication using invisible light.

Key Features

  • 10Gbps optical wireless links
  • Near InfraRed (NIR) invisible light source
  • Non-mechanical beam steering
  • Low cost, size, weight and power (CSWaP)
  • Eye-safe operation capability
  • Directional control via electrical signal

Technical Specifications

bandwidth:
Up to 25Gbps single channel, potential 100Gbps+ with multiplexing
range:
1-2 kilometers, weather dependent
latency:
Ultra-low, suitable for gaming and real-time applications
power Consumption:
Significantly lower energy per bit than RF solutions
operating Conditions:
Variable based on atmospheric conditions, less affected than traditional FSOC

RF Market Advantages

  • >10x faster than current solutions
  • Uses much less energy per bit
  • Larger beam areas for stable links
  • Arrays of arrays enable theater control
  • Can compete with RF MIMO
  • More secure with higher encryption

FSOC Market Advantages

  • Non-mechanical beam steering
  • Ultra-low CSWaP
  • Order of magnitude cheaper laser
  • Much faster than FSOC performance
  • Non-coherent light advantages in atmosphere
  • Can be made eye-safe
Theoretical Validation

ABDUCTIO Validation Report

Our technology has undergone rigorous theoretical validation using the ABDUCTIO framework to verify its foundational principles and practical advantages.

ABDUCTIO Validation Report

Solution Validation • April 28, 2025

Confidence
75%

ABDUCTIO Validation State: DECOMPOSED

Overall confidence (75%) is below validation threshold (80%). Solution has been decomposed to identify specific areas requiring improvement.

Level 1: Solution Statement

OptiPulse LightGrid™ photonic semiconductor technology enables high-bandwidth, reliable wireless connections without traditional infrastructure limitations, achieving 10Gbps+ speeds over 1-2km distances with minimal power consumption.
Confidence:75%
(Below threshold of 80%)

Level 2: Primary Decomposition

OptiPulse LightGrid™

Technical Feasibility

Confidence: 88/100

Implementation Path

Confidence: 62/100

Market Advantage

Confidence: 84/100

Technical Feasibility
88%
Reasoning
  • Core optical semiconductor technology has been demonstrated in laboratory conditions
  • Multiple working prototypes have verified the basic principles
  • Physical limitations have been addressed through innovative beam-forming
  • Patents granted confirm unique technical approach
Implementation Path
62%
Reasoning
  • Manufacturing partnerships need to be expanded
  • Initial application markets have been identified but not fully verified
  • Regulatory approval pathway is defined but not yet completed
  • Multiple parallel development opportunities increase odds of success
Market Advantage
84%
Reasoning
  • Significant performance improvements over existing RF solutions
  • Competitive with fiber deployments in certain scenarios but with faster installation
  • Unique attributes address specific market segments with unmet needs
  • Lower cost per bit than competing technologies

Level 3: Implementation Path Decomposition

Implementation Path component required further decomposition due to low confidence score (62/100)

Implementation Path

Regulatory Framework

Confidence: 72/100

Manufacturing Strategy

Confidence: 68/100

Deployment Infrastructure

Confidence: 52/100

Partnership Ecosystem

Confidence: 65/100

Regulatory Framework

Approval requirements and timeline

72%
  • FCC approval process has been initiated
  • Eye safety certifications are in progress
  • International standards compliance is being addressed
  • Regulatory timeline exceeds technology readiness
Manufacturing Strategy

Production capability at volume

68%
  • Current semiconductor partners can produce limited volumes
  • Full scale manufacturing requires additional partners
  • Component supply chain not fully secured
  • Production cost targets achievable at scale
Deployment Infrastructure

Installation and field deployment capability

52%
  • Installation partners limited in geographic coverage
  • Training program for installers not fully developed
  • Maintenance protocols still being established
  • Remote monitoring systems in early development
Partnership Ecosystem

Development and implementation partners

65%
  • Core technology partners established
  • Application development partners being recruited
  • Revenue sharing models defined but not tested
  • Agency Protocol provides structured framework

Level 4: Deployment Infrastructure Decomposition

Deployment Infrastructure component required further decomposition due to low confidence score (52/100)

Installation Process
58%
  • Basic installation guidelines documented
  • Field testing limited to controlled environments
  • Installation tools require further development
  • Time and resource requirements not fully validated
Maintenance Framework
47%
  • Remote diagnostics capability in early development
  • Mean time between failures projections not field-validated
  • Spare parts logistics not established
  • Environmental impact on maintenance needs unclear
Geographic Scalability
61%
  • Performance verified in limited geographic areas
  • Adaptation to different environmental conditions not fully tested
  • Local regulatory variations may impact deployment
  • International deployment partners limited

Further Decomposition Required

Component 'Maintenance Framework' requires additional decomposition due to its critical importance and low confidence score (47/100)

ABDUCTIO Process Flow

1
Initial Solution Assessment: Confidence 75/100
2
Below Threshold (80): Decomposition into Level 2 Components
3
Implementation Path (62%) identified as weakest component
4
Implementation Path decomposed into Level 3 subcomponents
5
Deployment Infrastructure (52%) identified as weak subcomponent
6
Deployment Infrastructure decomposed into Level 4 components
7
Maintenance Framework (47%) requires further decomposition
Solution Decomposition Flow
OptiPulse LightGrid™
Confidence: 75%
Technical
88%
Implementation
62%
Market
84%
Regulatory
72%
Manufacturing
68%
Deployment
52%
Partnerships
65%
Components with confidence below threshold require further decomposition

Conclusion

OptiPulse LightGrid™ technology represents a promising solution to high-bandwidth wireless connectivity with strong technical foundations. While specific implementation challenges remain, particularly in deployment infrastructure and maintenance frameworks, the core technology is sound and offers significant advantages over current alternatives. The decentralized development approach through Agency Protocol is particularly well-suited to address the remaining implementation challenges through specialized partners.

Recommended Next Steps

  • Further decompose maintenance framework to identify specific improvement areas
  • Complete regulatory certification for initial applications
  • Expand manufacturing partnership network
  • Accelerate specialized application development through Agency Protocol
  • Develop comprehensive installation and maintenance training program
Generated on April 28, 2025
View Full Analysis on ABDUCTIO

ABDUCTIO provides systematic validation for innovations where empirical evidence is still being gathered, using structured decomposition, transparent reasoning documentation, and confidence quantification.

Learn more about ABDUCTIO validation methodology

Applications

The versatile LightGrid™ technology enables a wide range of applications across multiple industries.

Gaming and VR

High bandwidth, low latency connections for gaming and VR equipment

Development Stage:Early development
Market Opportunity:HIGH

Wireless Data Centers

High-speed rack-to-rack connections without physical cabling

Development Stage:Concept validation
Market Opportunity:MEDIUM

LiFi Indoor Communications

High-speed indoor wireless networking using light

Development Stage:Prototype
Market Opportunity:MEDIUM

Last Mile Connectivity

1-2km connections to end users

Development Stage:Field testing
Market Opportunity:HIGH

Smart Poles for Rural Communities

Infrastructure for rural high-bandwidth connectivity

Development Stage:Pilot deployment
Market Opportunity:HIGH

6G Infrastructure

Next-generation wireless communication infrastructure

Development Stage:Research
Market Opportunity:VERY HIGH

How It Works

The Agency Protocol provides a structured framework for decentralized technology development.

1. IP Registration

OptiPulse registers its core technology on the Agency Protocol, defining development opportunities.

  • Verifiable proof of IP ownership
  • Cryptographically signed documentation
  • Clear definition of IP boundaries

2. Development Opportunities

Creating structured development opportunities with clear terms and constraints.

  • Specific application goals
  • Clear technical constraints
  • Transparent revenue sharing models

3. Developer Proposals

Qualified developers submit structured proposals to build on the technology.

  • Merit-based developer selection
  • Detailed technical approaches
  • Verifiable expertise credentials

4. Development & Revenue

Milestone-based development with transparent verification and revenue sharing.

  • Verified milestone completion
  • Automated revenue distribution
  • Merit increases for successful delivery

Development Opportunities

Join the Agency Protocol to participate in decentralized development of OptiPulse's revolutionary technology.

Gaming and VR Connectivity Solution

application9-12 months
Open for proposals

Develop high bandwidth, ultra-low latency optical wireless connections for gaming computers, consoles and VR headsets

2 proposals submitted

Wireless Data Center Interconnect

infrastructure12-18 months
Under review with potential partners

Develop rack-to-rack and server-to-server optical wireless links to replace physical cabling in data centers

4 proposals submitted

Rural Smart Pole System

infrastructure12-15 months
Active development with partner

Develop a complete smart pole solution for rural communities with optical wireless backhaul

5 proposals submitted

Enterprise LiFi System

application10-14 months
Open for proposals

Develop a complete LiFi system for enterprise environments using OptiPulse technology

1 proposals submitted

6G Technology Foundation Components

research24-36 months
Seeking research partners

Research and develop fundamental components for future 6G networks based on optical wireless technology

0 proposals submitted

Development Proposal Example

See how developers can create structured proposals to build on OptiPulse's technology.

Ultra-Low Latency VR Connection System

Proposed byVR Systems Inc.
Under Review

Proposal Summary

A complete solution for integrating OptiPulse's optical wireless technology with major VR platforms to eliminate cables while maintaining high bandwidth and low latency

Technical Approach

We will develop custom receiver/transmitter modules designed specifically for VR headsets and gaming PCs/consoles. Our solution will include custom drivers and firmware to optimize for VR-specific data patterns and prioritize latency-sensitive information.

Key Innovations
  • Dynamic beam-forming for headset tracking
  • Predictive movement algorithms to maintain connection during fast movements
  • Specialized protocol for VR data optimization
  • Auto-switching backup system for uninterrupted gameplay

Market Potential

The premium VR market is expected to reach $16B by 2026. Our solution addresses the #1 complaint from users: cables restricting movement. We forecast potential for 15% market adoption within 24 months of launch.

Project Details

Timeline: 10 months from approval to production-ready prototype
Budget: $1.2M development cost with additional $800K for certification and initial production

Development Team

Dr. Sarah Chen
Technical Lead
10 years in VR hardware development, former lead engineer at Oculus
Marcus Williams
Integration Specialist
Developed APIs for major gaming platforms, expert in low-latency systems
Olivia Rodriguez
Optical Systems Engineer
PhD in Photonics, specialized in consumer optical systems
4 supporting documents

Partner Ecosystem

Our development partners bring specialized expertise to build cutting-edge applications on OptiPulse technology.

Quantum Optics Labs

Research Institution
93% Merit

Specializing in next-generation optical communication technologies

Expertise

Quantum photonicsOptical semiconductor designAdvanced materials
Success Rate92%
Projects Completed17

NetWerx Solutions

Networking Company
92.66666666666667% Merit

Enterprise networking specialist with focus on high-performance infrastructure

Expertise

Data center infrastructureNetwork securityEnterprise integration
Success Rate88%
Projects Completed42

VR Systems Inc.

Gaming & VR Company
91.66666666666666% Merit

Leader in virtual reality hardware and infrastructure for gaming applications

Expertise

VR hardwareGaming platformsLow-latency systems
Success Rate85%
Projects Completed23

RuralConnect Technologies

Infrastructure Company
91.33333333333334% Merit

Specialized in telecommunications solutions for underserved rural areas

Expertise

Rural deploymentsSolar-powered systemsRemote management
Success Rate94%
Projects Completed31

Benefits of Decentralized Development

Why the Agency Protocol is the ideal platform for developing OptiPulse's technology.

For OptiPulse

  • Accelerate development across multiple applications simultaneously
  • Access specialized expertise in diverse application domains
  • Reduce development costs with revenue-sharing instead of upfront investment
  • Scale technology deployment faster with multiple partners
  • Protect core intellectual property while enabling innovation

For Developers

  • Access breakthrough technology without capital investment
  • Build domain-specific merit through successful projects
  • Participate in revenue sharing with clear terms
  • Focus on specialized applications rather than core technology
  • Collaborate with cutting-edge technology creators

For the Market

  • Faster commercialization of breakthrough technology
  • More diverse applications developed in parallel
  • Better solutions through specialized domain expertise
  • Transparent development milestones and progress
  • Increased innovation through collaborative approach

Ready to Participate in OptiPulse's LightGrid™ Revolution?

Join the Agency Protocol to develop applications, contribute expertise, or invest in the future of optical wireless technology.