Search is the fastest route on ui44 for high-volume scanning: robot names, manufacturers, categories, capabilities, sensors, connectivity, and AI stacks all surface in one workspace that stays usable on mobile, laptop, and 4K.
343
robots indexed
9
categories
<1s
live refresh
Type a query to see live matches across the entire index of robots, or clear it to browse by category and find what you need through structured directory navigation.
Live results
Match labels show why each robot surfaced for this query. The result deck stays dense enough to scan fast while keeping individual entries distinct and readable.
1X's home-focused humanoid robot designed for safe human coexistence. Pre-orders opened Oct 28, 2025. Features a soft, lightweight body. NEO Gamma is the updated design revealed Feb 2025.
Price
$20,000
1X Technologies' first humanoid robot, originally developed under the Halodi Robotics name. EVE is a wheeled, self-balancing humanoid designed for logistics, security, and healthcare environments. It is marketed for industrial deployment (not direct consumer purchase), with companies joining a waitlist for updates and availability. EVE has been deployed in real-world facilities since 2022 and served as a training platform that informed the design of 1X's bipedal NEO robot.
Price
Commercial pricing not publicly disclosed; available for enterprise deployment
AiMOGA Robotics' full-size general-purpose humanoid, developed as a Chery Automobile subsidiary and now offered directly to consumers via JD.com. The Mornine M1 stands 167cm tall, weighs 70kg, and has 40 degrees of freedom in its body (excluding dexterous hands). It features 3D LiDAR, dual depth cameras, and ultrasonic radar sensing for autonomous navigation with ±5cm accuracy and dynamic obstacle avoidance. The robot can perform dual-hand collaborative tasks such as autonomously opening car doors, and supports VR-based remote operation. It is the first humanoid robot to achieve full EU CE certification covering both hardware (CE-MD, CE-RED) and software (EN 18031), verified by TÜV Rheinland. Over 300 units have already been deployed across more than 30 countries in automotive dealerships, retail, and public-service settings. AiMOGA's roadmap targets eventual expansion into household use.
Price
$41,400
AGIBOT's full-size commercially deployed humanoid robot. Over 1,000 units deployed in real-world operations. Set a Guinness World Record for longest distance walked by a humanoid robot (106.286 km). First humanoid to hold top-tier certifications across China, US, and Europe (CR, CE-MD, CE-RED, FCC). Won 2025 iF and Red Dot Design Awards.
Price
Enterprise pricing (contact sales)
AGIBOT's compact bipedal humanoid robot, standing 1.31m tall with up to 30 degrees of freedom (Ultra version). Designed for research and commercial applications with swappable batteries, 3D LiDAR, and an NVIDIA Orin NX compute board for on-device AI. Walks at up to 1.8 m/s and carries up to 3kg.
Price
$24,240
AGIBOT's full-size A3 humanoid is positioned as a stage-born, high-interaction platform for commercial performances, interactive entertainment, research, education, brand activations, and public-space deployments. The official A3 product page lists a 173 cm, 55 kg body, up to 10 hours of endurance from dual 1,152 Wh battery packs, 10-second hot-swappable battery replacement for continuous operation, standard UWB positioning, dual-module 5G connectivity, and coordinated control for 100+ units. APC 2026 materials frame A3 as AGIBOT's third-generation Expedition-series full-size humanoid and as a deployment-phase interaction product rather than a consumer home chore robot.
Price
$45,000
AGIBOT's industrial-grade wheeled humanoid robot for manufacturing, logistics, and guided-service deployments. Official launch materials describe the G2 as a next-generation embodied robot with a 3-degree-of-freedom waist, force-controlled arms, multimodal voice interaction, dual hot-swappable batteries for 24/7 operation, and autonomous charging. AGIBOT demonstrated the G2 in automotive-parts assembly, RAM insertion, parcel sorting, and guided-tour scenarios, while independent coverage corroborated its wheeled omnidirectional mobility and Jetson Thor-based onboard AI stack.
Price
Commercial pricing not publicly disclosed
AGIBOT G1 is a wheeled humanoid-style universal embodied-intelligence robot in the AGIBOT Genie family for industrial, commercial, and domestic scenarios. The official product page says it has 26 degrees of freedom, a working height over 2 m, continuous one-arm handling of a 3 kg object, a chassis that turns in place, navigates 95% of factory pathways, and clears obstacles up to 20 mm. It is designed as both a task robot and a data-collection platform, with millisecond-latency VR/motion-capture teleoperation, full-body joint-data recording, cloud-assisted validation, six-axis force sensors on both arms, eight upper-body high-resolution cameras, front and rear RGB-D cameras, LiDAR, emergency stop and collision protection, OTA upgrades, and HMI monitoring. AGIBOT says the model is in large-scale production with immediate delivery, but it has not published detailed public height, weight, runtime, charging, compute, or price specs.
Price
Official AGIBOT product page does not disclose public pricing; it says the G1 is in large-scale production with immediate delivery.
A lightweight, developer-focused humanoid robot built for research, competitions, and rapid prototyping. The T1 won the 2025 RoboCup Soccer AdultSize championship and is used by over 50 robotics teams and research labs worldwide. Available in three configurations: Standard (23 DoF), with Grippers (31 DoF), and with Dexterous Hands (41 DoF). Runs on NVIDIA Jetson AGX Orin with 200 TOPS of AI compute, supports ROS 2, and ships with a full SDK for custom development. Booster Robotics is based in Beijing.
Price
Official Booster store is inquiry-only; no current verified public price was found on Booster's official sales pages.
Astribot S1 is a humanoid robot from Shenzhen-based Stardust Intelligence (Astribot), founded in December 2022. Commercial availability began in late 2025 in China, with international rollout expected throughout 2026. Designed as an AI research platform, S1 mirrors an adult male's operational parameters with 7 degrees of freedom per arm, 5kg payload per arm at horizontal reach, and effector speeds exceeding 10 m/s. The company uses a Design for AI (DFAI) architecture that deeply couples AI capabilities with manipulation hardware. S1 supports VR teleoperation for data collection, comprehensive APIs, and major simulation platforms. Targeted at universities, data centers, and AI enterprises for embodied intelligence research.
Price
Scientific research version, contact sales. Official Astribot product page does not publish a public price.
Full-size industrial humanoid robot from Munich-based Agile Robots, designed to work alongside humans on factory floors. Standing 174 cm tall, Agile ONE features dexterous hands with 21 joints per hand, integrated force and tactile sensors for precise manipulation, and a layered AI architecture trained on real-world industrial data. Equipped with cameras, LiDAR, and speech recognition for environmental perception and human interaction. Moves at up to 2 m/s and communicates intent through a chest display, expressive eyes, and proximity sensors. Series production is planned for 2026, with Google DeepMind's Gemini Robotics models being integrated following a strategic partnership announced in March 2026.
Price
Not publicly disclosed
Purpose-built humanoid for logistics and warehouse operations. Commercially deployed at multiple Fortune 500 companies including Amazon, Toyota Motor Manufacturing Canada (RaaS deal, Feb 2026), Mercado Libre (Dec 2025), Schaeffler, and GXO. Produced at Agility's RoboFacility in Salem, Oregon. Enterprise RaaS (Robots-as-a-Service) model — no consumer pricing available.
Price
Enterprise deployment via Agility sales / RaaS only. No public pricing; contact Agility for deployment.
Next step after "humanoid"
Once the deck stops feeling noisy, stop typing and change tools: compare finalists side by side, widen into a category map, or sanity-check the manufacturer context before committing to the shortlist.
Structured browse
See the whole market map when you need breadth, not just one keyword match.
OpenDecision mode
Move from discovery to real tradeoffs once the shortlist is small enough.
OpenCompany context
Portfolio depth, support context, and who is behind the robots.
OpenReading the result deck
141 results is usually enough to expose the right cluster. The next lift should come from structured comparison, not from typing more words into the same field.
1. Trim
Drop the obvious mismatches by maker, price, or category.
2. Open
Open the best 2-4 robots in parallel for deeper spec context.
3. Compare
Use compare once the decision is a tradeoff, not discovery.
Need a broader view?
Search wins when you know the signal. Directory routes win when you need a map of the entire field. Use both deliberately instead of forcing one tool to do both jobs badly.
The search indexes every attribute of 343 robots — names, manufacturers, categories, capabilities, sensors, connectivity, and AI stacks. Here is how to get the best results.
The search indexes every attribute of all 343 robots — names, manufacturers, categories, capabilities, sensors, connectivity, and AI stacks.
| Search for | Example | Finds |
|---|---|---|
| Robot name | Optimus | Tesla Optimus and similar names |
| Manufacturer | Unitree | All Unitree Robotics robots |
| Category | humanoid | Humanoid category robots |
| Capability | voice interaction | Robots with voice interaction |
| Sensor | LiDAR | Robots with LiDAR sensors |
| Protocol | Matter | Robots supporting Matter |
Price Sorting
Name matches rank highest, then manufacturer, then categories, sensors, and capabilities.
Multi-word queries match across fields — "Boston Dynamics quadruped" hits maker + category simultaneously.
Results update as you type with sub-second response — start broad, add specificity, watch the deck narrow.
Search → open 2–4 promising robots → compare finalists → check maker context.
The right search approach depends on your role and what decision you need to make. These strategies cover the most common research patterns.
Whether you are a consumer researching your first robot purchase, a journalist covering the robotics industry, an engineer evaluating competitive products, or an investor assessing market opportunities — the right search strategy depends on what signal you are tracking and what decision you need to make next.
Start broad: try "cleaning robot" or "companion robot" for an overview of what is available. Review prices and features across multiple results, then narrow with specific terms like sensor types or brand names. The categories page has buyer guides with price ranges for each robot type to help set expectations.
Search for features you wish your current robot had — "LiDAR navigation," "auto-empty," "voice control," or "obstacle avoidance." Compare your current model against candidates using the comparison tool to evaluate whether the upgrade justifies the cost. Pay attention to connectivity protocol changes — newer robots may use Matter instead of proprietary apps.
Search cutting-edge terms: "bipedal locomotion," "force torque sensor," "large language model," or "ROS 2." Combine with status filters on the all robots page to distinguish currently available products from development-stage prototypes and pre-order models. The components directory provides deeper technical context on unfamiliar sensors and AI platforms.
Search deployment scenarios: "warehouse automation," "logistics," "reception desk," or "security patrol." Check manufacturer profiles for enterprise support options, fleet management capabilities, and commercial pricing arrangements for bulk deployments. Regional context matters — the countries directory shows production hubs and import considerations.
Search for component names like "LiDAR," "NVIDIA Jetson," "ROS 2," or "Matter" to find robots built on specific platforms. See the components directory for structured technology views and component trends for adoption momentum data over the past 30 days.
Search for the task rather than the product: "mopping," "lawn mowing," "security patrol," or "elderly care" surfaces robots designed for those applications. Cross-category queries like "security" can reveal surprising alternatives — dedicated security robots, companion robots with surveillance features, and quadrupeds with patrol capabilities all appear in one search.
Search "Japan," "Chinese," or "European" to find robots from specific markets. The countries directory offers a structured geographic view with production hubs, manufacturer density, and regional market leaders for deeper comparison.
Explore categories
Understand the robotics landscape and identify which robot type matches your need.
Search candidates
Build a list of 3–5 promising results by name, capability, or sensor type.
Deep-dive profiles
Review full specifications, sensor breakdowns, and capability analysis on each candidate.
Research maker
Evaluate the company track record, portfolio breadth, and support infrastructure.
Check technology
Use the components directory to understand unfamiliar sensors, AI platforms, and connectivity protocols.
| Use search when | Use browse when |
|---|---|
| You know the robot name, maker, or a specific technology keyword | You need to understand the full market landscape first |
| You want fast results across the entire database in one query | You want buyer guides with price ranges and recommendations |
| You are validating whether a specific sensor or protocol exists | You want to compare regional markets or manufacturer portfolios |
| You need shareable, bookmarkable result URLs for later | You want structured side-by-side specification comparison |
One of the most valuable but underused search strategies is cross-category exploration. Searching across categories can reveal surprising alternatives you might not have considered:
Every search generates a permanent URL. Bookmark it, share it with colleagues, or paste it into a team chat — the same URL always shows the latest data for that query.
Start on your laptop, continue on your phone. Search URLs work everywhere. Open candidate detail pages in parallel tabs for efficient comparison across devices.
Once your shortlist is small enough, move directly to the comparison tool for structured spec-by-spec analysis. The compare page also supports shareable URLs for team purchase decisions.
The practical questions people hit most often once they start narrowing the shortlist.
Keep the research moving
Search is the fastest way to surface candidates. Once the problem becomes breadth, tradeoffs, or manufacturer context, switch tools on purpose instead of endlessly refining one query.