Next-Generation AI Robots for Construction

Physical AI with dual use: terrestrial and aerospace, ready to transform infrastructure anywhere.

Founded by Lesya Hendrix,
Robotics, EVs, and Automotive Engineering Expert

Now Deploying GRID

Autonomous rebar tying, built for real jobsites

GRID is a mobile rebar-tying robot designed to operate directly on rebar grid in job site conditions. It automates repetitive tying while producing reliable output, reducing labor strain, improving schedule reliability, and bringing the cost of the project down.

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Precision Tying

Consistent retention and placement.

Autonomous Navigation

Intelligently moves across uneven grids.

Rugged Design

Debris, dust, rough terrain.
Durable and robust.

Weather Proof

Operates in rain, snow, and extreme heat.

Data Logging & QA

Tie counts, runtime, and reports.

How it works

Unload

GRID's unloading is easy, and it fits in any SUV trunk.

Prep Setup

GRID is placed on the rebar grid and is ready to work.

Detect & Tie

GRID uses computer vision to avoid obstacles

Log

Work complete. Job site is now ready for concrete pouring.

Gen 1

Rebar Tying Autonomous Robot GRID

Using steel wire to tie together rebars on large commercial construction sites. Self-driving, long battery life, and high-retention technology.

5000

ties per 8 hour shift

14+ hrs

runtime with swappable battery packs

90 lbs

weight, optimized for OSHA requirements

3ft x 2ft

length x width robot dimensions

Our autonomy Map

Intelligence That Scales From Earth to Space

At Spacer Robotics, we are developing robots focusing on three generations. Starting with highly repetitive tasks in construction to intelligent world navigation and lunar adaptation.

GEN 3

Space-Ready Robots

GEN 2

Semi-Humanoid Robots

GEN 1

Task-focused Robots

Concrete Finisher

Concrete Polisher

Paint Sprayer

Demolition Robot

In our first generation we focus heavily on foundation construction

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Gen 2

Semi-humanoid Andromeda

Each hour Gen 1 works in the field fuels Gen 2 Andromeda, designed to turn experience into performance and operate seamlessly alongside our first-generation fleet.

Variety of high-complexity complex tasks

Safely executes high-risk operations

Adapts seamlessly to diverse job-site conditions

Pushes automation beyond traditional human capability

Gen 3

Lunar Infrastructure Robots

Gen 3 will handle the first Moon construction tasks for future infrastructure.

Executes pioneering lunar construction operations

Withstands extreme space and lunar conditions

Lays the groundwork for sustainable habitats and infrastructure

Enables future technologies, including quantum computing facilities and data centers beyond Earth

Planetary Roadmap

From Earth to the Moon

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2026

Deploy first Gen 1 robots and AI for repetitive tasks with pilot partners

2028

Gen 2 semi-humanoids R&D. Industry collaborations

2031

Gen 3 robots (collaborative, self-maintenance) with enterprise adoption

2033

Gen 3 arrives on the Moon to complete first construction tasks

READY TO BE A PART OF PHYSICAL AI REVOLUTION?

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The Core Team

Spacer Robotics Leadership

Lesya Hendrix

Founder and CEO

Natalia Krasnova

CTO

Alex Bazhaniuk

Advisor

Philipp Haban