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Showing matches for LiDAR. Edit and the workspace updates in place.

humanoid vacuum LiDAR Matter

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109 results for "LiDAR"

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.

Page 8 of 10
Vision 60
Security & Patrol | Ghost Robotics

Vision 60

Ghost Robotics' Vision 60 is the world's most adaptable Quadrupedal Unmanned Ground Vehicle (Q-UGV), built for defense, public safety, and commercial applications. Founded in 2014 by Gavin Kenneally and Avik De out of the University of Pennsylvania, Ghost Robotics deployed the first base security robot at Tyndall Air Force Base. The Vision 60 features a modular design with quick-swap sub-assemblies for field repair, IP67 all-weather protection, and operates from -40°C to 55°C. Its open architecture supports manipulator arms, CBRN sensors, LiDAR, and security payloads. Used by the U.S. Department of Homeland Security, military bases, and industrial inspection teams worldwide. The company has grown to 60+ employees and is expanding into commercial markets.

Description

Price

Enterprise/defense pricing (contact sales)

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Maker H01
Humanoid | GigaAI

Maker H01

GigaAI Maker H01 is a wheeled dual-arm humanoid platform positioned as an AI-native physical body for service and home scenarios. GigaAI's official product page describes a full-stack self-developed embodied robot with dual arms and a mobile base, flexible-object manipulation, long-horizon task planning, and the ability to break vague instructions into many continuous atomic actions. The same official page frames Maker H01 for household assistance, broader service work, industrial tasks, research, training-data collection, pick-and-place, inspection, reception, lab assistance, meal-preparation workflows, shelf organization, and goods handling. Humanoid.Guide corroborates the Maker H01 identity as a wheeled GigaAI humanoid prototype and reports dual 7-DOF arms, 28 total degrees of freedom, 160 cm height, 64 kg weight, 4-hour runtime, 8 km/h maximum speed, and home/service/light-logistics target markets. Separate May 2026 coverage uses the SeeLight S1 name for a GigaAI home-butler pilot; public sources do not yet establish whether that is the same platform name or a sibling, so this entry avoids applying SeeLight S1 pricing or rollout details to Maker H01.

Sensor

Price

Official Maker H01 pricing has not been disclosed. Humanoid.Guide lists the robot as a prototype and not available for purchase; separate SeeLight S1 pilot coverage reports different future pricing for a possibly related GigaAI home robot, so that figure is not applied to Maker H01.

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Stretch 3
Home Assistants | Hello Robot

Stretch 3

Hello Robot's open-source mobile manipulator designed for home environments, assistive care, and Embodied AI research. Stretch 3 is a lightweight (24.5kg) wheeled robot with a telescoping arm, compliant gripper, and 7 degrees of freedom. Its compact 33×34cm footprint lets it navigate real homes. Used by over 100 research labs worldwide, Stretch has one of the largest indoor mobile manipulation communities in robotics, with publications at ICRA, IROS, CoRL, HRI, and NeurIPS. Supports ROS 2 and Python SDK with out-of-the-box demos for autonomous perception, navigation, manipulation, and planning. Features web-based teleoperation for remote control from anywhere.

Sensor

Price

$24,950

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Home Assistants | Hello Robot

Stretch 4

Hello Robot's 2026 Stretch 4 is a wheeled mobile manipulator built for real homes, research labs, and workplace pilot deployments. It keeps the Stretch line's open ROS 2/Python developer model while adding a compact omnidirectional base, self-charging, longer 8-hour light-load runtime, a 160cm working height, and a stronger telescoping arm rated for 2.5kg extended or 4kg retracted payloads. Official materials position it as available now, with reference demos for mapping, navigation, 3D SLAM, data collection, and VLM grasping; IEEE Spectrum reports that Stretch 4 is also intended for in-home assistive pilots with people who have severe mobility impairments. It is still a high-cost developer/assistive platform rather than a mass-market consumer appliance.

Sensor

Price

$29,950

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ergoCub
Humanoid | Italian Institute of Technology

ergoCub

ergoCub is IIT’s ergonomics-focused humanoid robot developed with INAIL for physical collaboration tasks in industrial and healthcare settings. Built as an evolution of iCub, ergoCub is designed to reduce workers’ biomechanical risk during lifting by combining humanoid mobility, force-aware interaction, and AI-based planning. IIT reports a human-scale body (1.5 m, 55.7 kg), an approximate 10 kg collaborative load capability, Wi-Fi 6E connectivity, and AI components for collaborative lifting, load transport, warehouse navigation, worker-intention recognition, and object localization/manipulation.

Sensor

Price

Research project platform — not commercially sold

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DRC-HUBO+
Research | KAIST

DRC-HUBO+

The DRC-HUBO+ is the DARPA Robotics Challenge-winning humanoid robot developed by Team KAIST at the Korea Advanced Institute of Science and Technology. It won first place and the $2 million prize at the DRC Finals in Pomona, California on June 6, 2015, completing all eight disaster-response tasks faster than any competitor. Its key innovation is the ability to transform between a walking bipedal posture and a wheeled kneeling posture — it drops to its knees and rolls on built-in knee wheels for fast, stable traversal, then stands up to use its arms and climb stairs. Built on the HUBO 2 (KHR-4) platform originally released in 2005, it represents over 15 years of humanoid research at KAIST led by Professor Jun-Ho Oh.

Sensor

Price

Research platform (not commercially available)

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Kuavo 5
Humanoid | Leju Robotics

Kuavo 5

The Kuavo 5 is a modular full-size humanoid robot from Shenzhen-based Leju Robotics, and the fifth generation of the Kuavo platform. Its defining feature is a swappable lower body: the standard Kuavo 5 walks bipedally, while the Kuavo 5-W variant swaps to a wheeled base for faster movement on flat surfaces. The upper body is equally modular, supporting interchangeable five-finger dexterous hands (10 DOF each), parallel grippers, or heavy-duty claws, with a 360-degree rotating torso and adjustable height. Official Kuavo 5 biped manuals list the robot at 1.73 m and 63.5 kg, with a quoted walking endurance of 1 hour and charging time of ≤1.5 hours. Leju integrates Huawei's Pangu embodied AI model running on HarmonyOS/KaihongOS, achieving end-to-end latency under 200 ms. The platform has been deployed in real-world pilots including NIO automotive assembly, China Southern Power Grid inspections, and served as the world's first 5G-A equipped humanoid torchbearer at China's 15th National Games in November 2025. Leju has raised over $200 million in pre-IPO funding and delivered its 100th full-size humanoid in 2025.

Sensor

Price

Official Leju product/manual pages do not publish an MSRP; third-party listings are unverified and currently not purchasable

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Oli
Humanoid | LimX Dynamics

Oli

LimX Dynamics' full-size humanoid robot with advanced loco-manipulation capabilities. Powered by the COSA (Cognitive OS of Agents) agentic operating system, Oli is the first humanoid to combine whole-body motion control with high-level autonomous cognition — thinking while acting in real environments. Can navigate construction debris, sand, rocks, and uneven terrain. Features OTA-updatable motion libraries and supports major simulation platforms. LimX Dynamics raised $200M in Series B funding.

Sensor

Price

No public price; official LimX order flow is contact-sales/inquiry. Official launch says Oli is available in Lite, EDU, and Super editions, currently only in Mainland China, with a global version coming soon.

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Research | LimX Dynamics

TRON 1

LimX Dynamics' TRON 1 is a compact multi-modal biped research robot for humanoid motion-control onboarding, reinforcement-learning experiments, and embodied-intelligence R&D. Its defining feature is a modular foot-end system that lets one platform switch between point-foot, sole, and wheeled modes, with automatic hardware recognition and software adaptation. LimX positions TRON 1 as a ready-to-use development platform with built-in high-performance motion control, an open SDK, Python-based development support, mainstream simulator compatibility, and optional arm, voice-interaction, and perception expansion kits for mobile manipulation, speech control, mapping, navigation, and obstacle-avoidance research.

Sensor

Price

$24,800

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MagicDog
Companions | MagicLab

MagicDog

MagicDog is MagicLab's quadruped companion robot dog, presented during the company's CES 2026 debut and described by MagicLab as a robot dog that can autonomously express emotions. The official product page lists PRO and EDU variants with MagicLab's emotional interaction system, SAGE AI algorithm, voice/vision/touch interaction, target following, obstacle navigation, graphical programming, 13 degrees of freedom, and a 4K head camera for photo and video capture. CES directory materials also listed MagicDog in MagicLab's CES robotics demonstrations, including a MagicDog group-dance performance alongside the company's Z1 and Gen1 robots.

Sensor

Price

MagicLab has not published public pricing for MagicDog; the official product page lists PRO and EDU variants but no checkout price.

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Cleaning | Matic Robots

Matic

Matic is a vision-first robot vacuum and mop from Matic Robots that takes a notably different approach from most premium cleaners. Instead of a large multifunction dock or LiDAR tower, Matic uses on-device computer vision for real-time 3D floor mapping and carries its dustbag, clean-water tank, and mop-cleaning system inside the robot. Official materials describe automatic switching between vacuuming and mopping, a self-cleaning mop roll, tangle-resistant brush roll, HEPA bags for wet and dry waste, local processing with no cloud audio/video collection, and quiet operation up to 55 dB. Independent testing from RTINGS and Vacuum Wars corroborates the onboard bag/water/mop-cleaning design, five-camera 3D mapping, wet-spill pickup, and strong cleaning performance, while noting trade-offs such as the tall 7.8-inch body, lack of a conventional auto-empty/wash dock, and mixed navigation efficiency.

Description

Price

$1,245

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RoBee R
Humanoid | Oversonic Robotics

RoBee R

RoBee R is an industrial cognitive humanoid robot made in Italy by Oversonic Robotics. Standing up to 190 cm tall and weighing up to 180 kg, it operates autonomously in factories and hospitals alongside human workers. It uses AI-driven perception and real-time decision-making to handle pick-and-place tasks, quality inspection, machine tending, and patient monitoring. RoBee debuted at CES 2026 and has been deployed in over 60 Italian companies. It features bimanual manipulation with 40 degrees of freedom, autonomous navigation up to 1.2 m/s, and up to 8 hours of battery life with inductive charging. Oversonic signed a supply agreement with STMicroelectronics in December 2025.

Sensor

Price

Official Oversonic RoBee R page is contact-scenario/inquiry flow with no public list price

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Next step after "LiDAR"

Turn 109 search results into an actual decision.

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.

Open compare

Structured browse

Browse categories

See the whole market map when you need breadth, not just one keyword match.

Open

Decision mode

Compare finalists

Move from discovery to real tradeoffs once the shortlist is small enough.

Open

Company context

Check manufacturers

Portfolio depth, support context, and who is behind the robots.

Open

Reading the result deck

Stop searching once the shortlist starts to repeat.

109 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?

Switch tools when the question changes.

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.

Compare finalists Browse categories Check makers

Search playbook

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.

Query examples

The search indexes every attribute of all 343 robots — names, manufacturers, categories, capabilities, sensors, connectivity, and AI stacks.

Search for Example Finds
Robot nameOptimusTesla Optimus and similar names
ManufacturerUnitreeAll Unitree Robotics robots
CategoryhumanoidHumanoid category robots
Capabilityvoice interactionRobots with voice interaction
SensorLiDARRobots with LiDAR sensors
ProtocolMatterRobots supporting Matter

Price Sorting

No price filter in search? Sort results on the all robots page by price low-to-high or high-to-low.
1

Priority matching

Name matches rank highest, then manufacturer, then categories, sensors, and capabilities.

2

Cross-field matching

Multi-word queries match across fields — "Boston Dynamics quadruped" hits maker + category simultaneously.

3

Live refresh

Results update as you type with sub-second response — start broad, add specificity, watch the deck narrow.

4

Research workflow

Search → open 2–4 promising robots → compare finalists → check maker context.

Categories

Full market map by robot type

Components

Sensors, AI stacks, protocols

Countries

Geographic market breakdown

All robots

Sortable price browsing

Research strategies

The right search approach depends on your role and what decision you need to make. These strategies cover the most common research patterns.

Research strategies by role

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.

First-time buyer

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.

Upgrading a robot

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.

Tech enthusiast

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.

Commercial buyer

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.

Research by technology

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.

Research by use case

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.

Research by region

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.

Complete research workflow

1

Explore categories

Understand the robotics landscape and identify which robot type matches your need.

2

Search candidates

Build a list of 3–5 promising results by name, capability, or sensor type.

3

Deep-dive profiles

Review full specifications, sensor breakdowns, and capability analysis on each candidate.

4

Compare finalists

Put top picks side by side with the comparison tool to highlight tradeoffs.

5

Research maker

Evaluate the company track record, portfolio breadth, and support infrastructure.

6

Check technology

Use the components directory to understand unfamiliar sensors, AI platforms, and connectivity protocols.

When to use search vs other tools

Use search when Use browse when
You know the robot name, maker, or a specific technology keywordYou need to understand the full market landscape first
You want fast results across the entire database in one queryYou want buyer guides with price ranges and recommendations
You are validating whether a specific sensor or protocol existsYou want to compare regional markets or manufacturer portfolios
You need shareable, bookmarkable result URLs for laterYou want structured side-by-side specification comparison

Cross-category discovery

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:

  • Security needs? Searching "security" surfaces dedicated security robots, companion robots with surveillance features, quadrupeds with patrol capabilities, and cleaning robots with built-in cameras.
  • Specific sensor? Searching "camera" shows robots from every category that include cameras — from vacuums to humanoids to security bots — revealing technology adoption patterns across the market.
  • Budget comparison? Searching a price range or budget term can surface robots across categories that compete for the same spending decision, even if they serve different purposes.

Saving and sharing research

Bookmarkable URLs

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.

Multi-device research

Start on your laptop, continue on your phone. Search URLs work everywhere. Open candidate detail pages in parallel tabs for efficient comparison across devices.

Compare integration

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.

Search help

The practical questions people hit most often once they start narrowing the shortlist.

Frequently Asked Questions

What can I search for on ui44?
You can search across all 343 robots by name, manufacturer, category, capability, sensor type, connectivity option, or any keyword that appears in a robot's profile. The search indexes every attribute in the database for comprehensive results.
Why am I getting no results?
If your search returns no results, try simplifying your query. Use single keywords rather than phrases, check for typos, and try synonyms (e.g., "vacuum" instead of "cleaning robot"). You can also browse by category or manufacturer.
Can I filter search results by price?
The search page does not include a numerical price filter, but you can use the all robots page which offers category, manufacturer, and price sorting together.
Do search results update in real time?
Yes, results update as you type with a short debounce delay to balance responsiveness with efficiency. There is no need to press Enter or click a search button — just start typing and results appear automatically. You can also press Enter or click Search for an immediate update. The result cards are rendered server-side and delivered via HTMX partial updates, meaning only the search results section refreshes without disturbing the rest of the page.
How is search relevance determined?
Results are ranked by match quality across multiple data dimensions. The relevance algorithm prioritizes exact matches in high-importance fields — a robot name match ranks higher than a description mention, which ranks higher than a sensor or capability match. Multi-word queries are evaluated as a combined search, matching across any combination of fields. For example, searching "Boston Dynamics quadruped" surfaces robots from Boston Dynamics in the quadruped category.
Can I search by technical specifications?
Yes — search for specific sensor names, connectivity protocols, AI platforms, or capability keywords. For example, searching for "LiDAR" returns all robots that include LiDAR sensors, while "Matter" surfaces robots supporting the Matter smart home protocol. For structured technical browsing, the components directory provides dedicated pages for each technology with complete robot compatibility lists and detailed technical explanations.
Does search include robots not yet available for purchase?
Yes, the search indexes every robot in the database regardless of availability status. Results include robots that are Available, in Pre-order, in Development, and in Prototype stages. Each result card displays the robot's current status so you can quickly identify which results represent products you can buy today versus those still in development. To limit results to only purchasable robots, use the status filter tabs on the all robots page.
How often is the search data updated?
The search index is rebuilt whenever the database is updated, ensuring that new robots, updated specifications, and changed prices are immediately searchable without delay. Each robot detail page shows a "last verified" date so you can assess data freshness for any specific result. Available products are prioritized for frequent verification, ensuring that purchase-ready robots have the most current information.
Can I share or bookmark my search results?
Yes, every search query generates a shareable URL that preserves your exact search terms and results. You can bookmark searches to revisit later, share specific search results with colleagues evaluating robots together, or save a set of search URLs as a lightweight research project. The URL-based approach ensures your research is reproducible — the same URL always shows the latest data.
What is the best way to narrow down search results?
Start with a broad term and progressively add specificity. For example, typing "robot" shows everything, adding "cleaning" narrows to cleaning robots, and adding a manufacturer name further refines to that company's products. You can also combine search with other tools — identify candidates through search, then use the comparison tool to evaluate your shortlist side by side across all specification dimensions.
Should I use search or browse to find robots?
Use search when you have a specific keyword, name, manufacturer, or technology in mind — it is the fastest way to surface candidates from the entire database in one action. Use browse routes when you need market context: the categories page for understanding robot types and buyer guides, the manufacturers page for company-level research, and the comparison tool for final tradeoff analysis. Most effective research workflows use both: search to discover, browse to contextualize.
Can I search by price range?
Direct price-range filtering is not available in search. However, you can search by category (e.g., "cleaning robot") to see the full price spread, then sort by price on the all robots page for structured price browsing. Many category pages also include price distribution tables showing typical price ranges for budget, mid-range, and premium segments within that robot type.
How do I compare robots after searching?
Once your search results narrow to a manageable shortlist, open the most promising 2–4 robots in separate tabs and review their full detail pages. Then use the comparison tool to place up to 4 robots side by side across every specification dimension — price, sensors, capabilities, connectivity, battery life, dimensions, and AI stack. The comparison view highlights differences that are hard to spot across separate detail pages.
Does search work on mobile?
Yes, search is fully responsive and works on mobile, tablet, and desktop. On smaller screens, the search input is prominently placed at the top of the page, result cards stack vertically for easy scrolling, and all quick-start tags and category chips remain tappable. Every search generates a bookmarkable URL, so you can start research on your phone and continue on your laptop without losing context.
How do I find robots from a specific country?
You can search by country name or nationality — "Japan," "Chinese," "Korean," or "German" will surface robots from manufacturers based in those regions. For a structured geographic view, the countries directory provides dedicated pages for each manufacturing hub, including manufacturer counts, product portfolios, and regional market positioning. Country pages also show production trends and highlight leading manufacturers in each region.
Can I search by robot status (available, pre-order, development)?
The search indexes status labels, so searching for "available," "pre-order," "development," or "prototype" will surface robots matching that status. However, for more structured status filtering, use the status filter tabs on the all robots page, which lets you toggle between Available, Pre-order, Development, and Prototype robots while maintaining category and manufacturer filters. Status information on each robot profile includes a last verified date so you can assess how current the availability data is.
What data does each search result card show?
Each result card displays the robot name, manufacturer (linked to the manufacturer profile), category, a short description, the price (or price note if TBD), and match labels showing which fields matched your query (Name, Maker, Category, Capability, Sensor, or AI). Clicking any result opens the full robot detail page with complete specifications, sensor breakdowns, capability analysis, component details, and manufacturer context.
How do I research a specific technology like LiDAR or Matter?
Search for the technology name directly — "LiDAR," "Matter," "ROS 2," "NVIDIA Jetson," or "Bluetooth 5.0" will return all robots that include that technology. For deeper technical context, the components directory provides dedicated pages for each technology with explanations, adoption statistics, and complete robot compatibility lists. You can also check component trends to see which technologies are gaining or losing adoption across the market over the past 30 days.
What is the difference between search and the all robots page?
The search page is optimized for keyword-based discovery across the entire database — type any term and get instant results from all robots. It indexes every attribute including names, manufacturers, categories, capabilities, sensors, connectivity protocols, and AI platforms. The all robots page is a structured directory with sortable columns, category filters, manufacturer filters, status tabs, and price sorting. Use search when you have a keyword in mind; use the robots page when you want to browse, filter, and sort a structured table view. Both routes link to the same robot detail pages for deep specification analysis.

Keep the research moving

Need a different lens than raw keyword search?

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.

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