Private Strategic Pilot Brief

Private Strategic Pilot Brief

Confidential — selective partner briefing

Confidential — selective partner briefing

Synaptic Pulse
Private Strategic Pilot Brief

Synaptic Pulse
Private Strategic Pilot Brief

A private, partnership-oriented brief for selected advanced prosthetics, rehabilitation technology, robotics, and human–machine interface organizations exploring pilot collaboration with Synaptic Pulse technology.

A private, partnership-oriented brief for selected advanced prosthetics, rehabilitation technology, robotics, and human–machine interface organizations exploring pilot collaboration with Synaptic Pulse technology.

Prepared for strategic pilot exploration

Prepared for strategic pilot exploration

2026

2026

02 / The gap

Advanced platforms still need more intuitive human control.

Most human–machine control systems still depend on discrete commands: open, close, activate, select. Human movement is not discrete. It is coordinated, continuous, and often simultaneous.

For advanced prosthetics, rehabilitation systems, robotics, and next-generation interfaces, the opportunity is not only better hardware. It is a more capable bridge between biological intention and machine movement.

Intention, not commands

Move beyond discrete command-based control toward natural, coordinated, and simultaneous movement.

Intention, not commands

Move beyond discrete command-based control toward natural, coordinated, and simultaneous movement.

Non-invasive by design

Advanced human–machine control without implants or surgery, supporting safer and more scalable adoption.

Non-invasive by design

Advanced human–machine control without implants or surgery, supporting safer and more scalable adoption.

Built for integration and scale

A unified augmentation platform designed to connect with prosthetics, rehabilitation technologies, robotics, and intelligent systems.

Built for integration and scale

A unified augmentation platform designed to connect with prosthetics, rehabilitation technologies, robotics, and intelligent systems.

Real-world validation

Actively tested with people, clinicians, and partners across prosthetics, rehabilitation, sports medicine, and clinical environments.

Real-world validation

Actively tested with people, clinicians, and partners across prosthetics, rehabilitation, sports medicine, and clinical environments.

03 / Platform

Synaptic Pulse is the parent human augmentation platform.

Synaptic Pulse is the parent human augmentation platform.

The platform combines high-density neuromuscular sensing, adaptive AI interpretation, real-world clinical workflows, and a flexible software framework to support integration with advanced partner devices.

Synaptic Mesh

Anatomy-adaptive sensing interface for high-density neuromuscular signal acquisition.

Synaptic Mesh

Anatomy-adaptive sensing interface for high-density neuromuscular signal acquisition.

Synaptic Cortex

Adaptive AI engine that learns signal patterns and decodes movement intention.

Synaptic Cortex

Adaptive AI engine that learns signal patterns and decodes movement intention.

Integration Layer

Flexible software pathway for advanced prosthetics, rehab platforms, and robotics.

Integration Layer

Flexible software pathway for advanced prosthetics, rehab platforms, and robotics.

Validation Loop

Pilot feedback strengthens technical readiness and partner-specific learning.

Validation Loop

Pilot feedback strengthens technical readiness and partner-specific learning.

Synaptic Mesh device and lab interface from source briefing

04 / Synaptic Mesh

A non-invasive, anatomy-adaptive neuromuscular interface.

Synaptic Mesh is built around modular sensing nodes that adapt to the complexity of human anatomy. It is designed to capture high-fidelity neuromuscular signals while remaining non-invasive, scalable, and suitable for real-world integration studies.

High-resolution sensing

Distributed sensors capture richer muscle activity than fixed-channel approaches.

High-resolution sensing

Distributed sensors capture richer muscle activity than fixed-channel approaches.

Stable skin interface

Designed to maintain consistent contact and reduce signal variability.

Stable skin interface

Designed to maintain consistent contact and reduce signal variability.

05 / Synaptic Cortex

An adaptive AI motion and intention engine.

An adaptive AI motion and intention engine.

Synaptic Cortex learns from each user and transforms complex biological activity into intelligent movement control. The system combines adaptive calibration, spatial intelligence, temporal learning, and user-specific optimization to support more natural coordinated control.

Synaptic Cortex software and prosthetic control lab from source briefing

Adaptive calibration

Personalizes decoding to each user’s signal behavior and control needs.

Adaptive calibration

Personalizes decoding to each user’s signal behavior and control needs.

Spatial intelligence

Identifies the most relevant information for movement interpretation.

Spatial intelligence

Identifies the most relevant information for movement interpretation.

Motion decoding

Enables coordinated and simultaneous movement instead of simple outputs.

Motion decoding

Enables coordinated and simultaneous movement instead of simple outputs.

06 / Signal pathway

From neuromuscular signals to independent and simultaneous control.

From neuromuscular signals to independent and simultaneous control.

01

Neuromuscular activity

01

Neuromuscular activity

02

High-density sensing

02

High-density sensing

03

Adaptive decoding

03

Adaptive decoding

04

Movement intention

04

Movement intention

05

Independent simultaneous control

05

Independent simultaneous control

07 / Strategic pilot opportunity

A selective path to test Synaptic Pulse with advanced partner platforms.

The purpose of a pilot is not an immediate commercial commitment. It is a focused technical collaboration to evaluate signal quality, control mapping, integration feasibility, latency, user adaptation, and independent simultaneous movement capabilities in a relevant partner environment.

Applications and partner platform context from source briefing

Control quality

Assess responsiveness, coordination, and movement independence.

Control quality

Assess responsiveness, coordination, and movement independence.

Integration fit

Understand hardware, software, and workflow requirements.

Integration fit

Understand hardware, software, and workflow requirements.

Validation evidence

Generate shared technical learning in controlled pilot settings.

Validation evidence

Generate shared technical learning in controlled pilot settings.

Strategic optionality

Clarify where deeper collaboration could create mutual value.

Strategic optionality

Clarify where deeper collaboration could create mutual value.

08 / Mutual value

A pilot should strengthen both the partner platform and Synaptic Pulse system readiness.

A pilot should strengthen both the partner platform and Synaptic Pulse system readiness.

For the partner

Explore differentiated control on a sophisticated platform

Evaluate whether Synaptic Pulse can improve the control experience, expand usable motion intent, and reveal new integration possibilities without requiring an immediate commercial decision.

For the partner

Explore differentiated control on a sophisticated platform

Evaluate whether Synaptic Pulse can improve the control experience, expand usable motion intent, and reveal new integration possibilities without requiring an immediate commercial decision.

For Synaptic Pulse

Validate technical assumptions in partner-grade environments

Learn from advanced device requirements, refine integration pathways, strengthen performance evidence, and identify where the technology creates the clearest strategic value.

For Synaptic Pulse

Validate technical assumptions in partner-grade environments

Learn from advanced device requirements, refine integration pathways, strengthen performance evidence, and identify where the technology creates the clearest strategic value.

09 / Pilot pathway

A simple progression from alignment to evaluation.

A simple progression from alignment to evaluation.

01

Technical Alignment

01

Technical Alignment

02

Pilot Definition

02

Pilot Definition

03

Integration

03

Integration

04

Testing

04

Testing

05

Evaluation

05

Evaluation

10 / Private next step

Explore whether Synaptic Pulse can create meaningful pilot value with your platform.

Explore whether Synaptic Pulse can create meaningful pilot value with your platform.

This brief is intended for selective technical and strategic conversations with advanced partners. The next step is a discreet discussion around fit, constraints, and a possible pilot definition.