1 robot tracked on ui44 with a growing manufacturer profile with pricing still largely handled through direct quotes.
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Vbot currently spans 1 robot in the ui44 database. The portfolio leans toward quadruped with 1 model leading the lineup. The lineup is still early-stage, with no robots currently marked available or active. Pricing is largely handled through direct sales or undisclosed quotes.
1 Quadruped
Vbot is most concentrated in quadruped robotics, with 1 category represented overall.
0/1
None of the tracked robots are marked available or active yet, so treat this lineup as earlier-stage.
Quote-based
Public pricing is limited, so the commercial picture depends on direct sales conversations or enterprise quotes.
Vbot needs an at-a-glance summary before the page branches into deeper editorial content. This chapter brings the company snapshot, compare entry points, and model gallery into one clean first read.
Vbot is a robotics company. The company currently has 1 robot tracked in the ui44 Home Robot Database, spanning the Quadruped category.
Browse all robotics companies on the manufacturers directory.
Model coverage
The tracked Vbot robot is grouped here so the catalog can be scanned quickly before diving deeper into pricing, specs, and context.
Vbot
Vbot SuperDog
Category
Quadruped
Since
2026
Vbot SuperDog is Vbot's consumer-grade embodied-AI quadruped robot dog, shown at CES 2026 and listed on Vbot's official…
A premium manufacturer page should make it easy to understand how the lineup is organized and what technical patterns show up across the portfolio, not just list robots one by one.
Vbot's robots combine a range of technologies and capabilities. Here is a consolidated look at the sensors, connectivity, AI platforms, and capabilities found across their product line.
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Decision-making gets easier when pricing, availability, and comparable specs are presented as a coherent buying surface instead of disconnected blocks.
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Available now
Vbot does not currently list public pricing for any of its model. This is common for enterprise-focused and research robotics companies that operate on custom quotes or contact-sales pricing.
This section translates the raw database into practical evaluation advice, which helps the page feel like expert editorial rather than a raw export.
Choosing the right robot depends on your use case, budget, and technical needs. Here's what to consider when evaluating Vbot's product line.
Vbot serves enterprise and research customers. 1 of their models require contacting sales for pricing, indicating enterprise-tier products with custom deployment support.
Availability
0 of 1 models are currently available. Check individual robot pages for the latest status.
Category Fit
Make sure the robot's category matches your primary use case. Browse all categories.
Sensor Ecosystem
Review the technology section to understand what sensing and connectivity each model offers.
Price Transparency
0 of 1 models list public pricing. For unlisted models, request quotes early.
Ecosystem Compatibility
Some Vbot robots integrate with third-party platforms. Check compatibility on each robot's page.
Compare Before You Buy
Evaluate Vbot robots head-to-head or against competitors with our comparison tool.
Raw numbers only tell part of the story. Here is a plain-language explanation of what each specification means for the Vbot robot — and what it means for you as a buyer or researcher.
Specifications Breakdown
With a height of 57 cm, the Vbot SuperDog is designed to operate at a mid-range level — suitable for navigating under tables, around furniture, and through standard doorways without issue. This compact-but-capable size balances visibility with maneuverability.
The Vbot SuperDog weighs Approximately 15 kg. Weight affects stability, portability, floor compatibility, and how the robot interacts with its environment.
The Vbot SuperDog offers Approximately 3-5 hours of battery life per charge. Battery life is one of the most critical real-world performance metrics for any mobile robot. It determines how much work the robot can accomplish in a single session before needing to recharge. For quadruped robots, this runtime should be evaluated against the size of the area you need covered and the intensity of the tasks involved. Robots with self-charging capability can partially compensate for shorter battery life by autonomously returning to their dock.
The Vbot SuperDog requires Approximately 2.5 hours to reach a full charge. Charging time directly impacts the robot's daily operating capacity — faster charging means less downtime and more productive hours. Combined with its battery life, the charge-to-runtime ratio reveals how much of each day the robot can actually spend working versus sitting on its dock.
The Vbot SuperDog can move at up to 13.3 km/h. Maximum speed affects how quickly the robot can traverse its operating area, respond to commands, and complete tasks. For quadruped robots, speed must be balanced against safety — faster robots need better obstacle detection and stopping capabilities to prevent collisions and ensure safe operation around people and pets.
The Vbot SuperDog runs on 128 TOPS onboard AI compute, self-developed spatial foundation model, on-device spatial intelligence, physical-space agent behavior, generative actions/dances, and large-language-model voice system for its artificial intelligence capabilities. The AI platform determines how intelligently the robot behaves — from basic reactive responses to sophisticated scene understanding, natural language processing, and adaptive learning. A more advanced AI platform generally means better obstacle avoidance, more natural interaction, and the ability to improve performance over time through software updates.
Determines what tools and sensors the robot can carry
Affects doorway clearance and operating space requirements
Sourced from official Vbot docs · Full Vbot SuperDog specs →
A strong manufacturer page should explain where the lineup fits in the broader robotics market, including who these robots are for and how the surrounding category is moving.
Understanding how a robot fits into your specific situation is more important than any single specification. Here are the real-world scenarios where Vbot robots can make a meaningful impact.
Industrial environments are seeing rapid robot adoption for tasks including picking, packing, inspection, and material transport.
Academic and research teams need robot platforms that offer deep programmability, well-documented APIs, and active community support.
Quadruped robots excel in inspection tasks across rough, unstructured terrain where wheeled robots cannot go.
Not sure which type of robot fits your needs? Browse our categories guide or use the comparison tool to evaluate options side-by-side.
Vbot operates in the quadruped robotics segment.
Quadruped robots (robot dogs) have evolved from research curiosities into practical tools for inspection, surveillance, and exploration. Boston Dynamics' Spot demonstrated commercial viability, while Chinese manufacturers like Unitree have made the technology more affordable. These four-legged robots excel in environments too rough or dangerous for wheeled platforms — stairs, rubble, uneven terrain, and confined spaces.
Vbot competes in this space with Vbot SuperDog.
Quadruped robots are becoming standard tools in industrial inspection and security. As costs continue to drop and autonomy improves, expect wider adoption in agriculture, emergency response, and even consumer markets. The addition of manipulation arms is expanding what these platforms can do beyond observation.
For serious buyers and researchers, the important question is how the stack hangs together: capabilities, sensing, and integration depth all need to read as a coherent system.
How a robot connects to your network and integrates with your existing smart home determines how useful it will be in practice. Vbot's robot supports 3 connectivity technologies, 1 voice assistant, and third-party integrations.
Vbot robots support the following voice assistants: Large-language-model voice system. Voice assistant integration enables hands-free control, smart home device management, and natural language interaction with your robot.
Learn more about robot connectivity options in our connectivity components guide or browse the full components directory.
Manufacturer research is stronger when the page moves beyond specs and helps frame strategic position, regional ecosystem, and how the portfolio sits versus peers.
How Vbot positions itself in the competitive landscape — beyond individual products.
Price positioning: Vbot does not publicly disclose pricing, which is typical for enterprise-focused robotics companies that customize solutions for each deployment. Contact-sales pricing usually indicates a higher-touch customer relationship and tailored support.
Category focus: Vbot is a specialist focused entirely on the quadruped category. Category specialists often develop deeper expertise and more refined products in their focus area compared to multi-category companies that spread their R&D across different robot types.
Technology breadth: Across its product line, Vbot integrates 7 unique sensor types and 15 distinct capabilities. This technology stack determines the range of tasks and environments their robots can handle, and indicates the depth of the company's engineering investment.
Market maturity: Vbot's robot is currently in pre-order stage. This is common for robotics companies working on next-generation technology that isn't yet ready for general availability.
Compare Side by Side
Use the comparison tool or browse the manufacturers directory.
The page should close with practical ownership guidance, supporting editorial, and a concise summary so the route ends with momentum instead of fatigue.
Purchasing a robot is the start of an ongoing relationship with technology that requires setup, maintenance, and periodic attention.
First-time robot setup varies significantly by category and complexity. Consumer robots like vacuums and lawn mowers typically involve downloading a companion app, connecting to Wi-Fi, and running an initial mapping or boundary setup routine. More complex robots like humanoids or quadrupeds may require professional installation, calibration, and training. Allow extra time for the first session — the robot needs to learn your space, and you need to learn its controls. Most modern robots improve their performance over the first few uses as their maps and AI models refine based on your specific environment.
Every robot requires some level of maintenance to operate at peak performance. For cleaning robots, this includes emptying dustbins, washing filters, replacing brush rolls, and cleaning sensors — typically a few minutes per week. Lawn mowing robots need periodic blade replacements and seasonal cleaning. Legged robots may require joint lubrication and firmware updates. Check the manufacturer's recommended maintenance schedule and factor replacement part costs into your total cost of ownership. Establishing a regular maintenance routine significantly extends the robot's useful life and maintains cleaning or task performance over time.
Modern robots receive regular software updates that can add features, improve navigation, fix bugs, and enhance security. When evaluating any robot, consider the manufacturer's track record for software support — how frequently do they release updates, and for how long do they support older models? Some companies provide updates for years after purchase, while others may discontinue support sooner. Cloud-dependent features are particularly important to evaluate: if the manufacturer shuts down cloud services, will your robot still function? Prefer robots with strong local processing capability for long-term reliability.
Robot safety encompasses both physical safety (preventing collisions, falls, and injuries) and digital safety (data privacy, network security, camera access). Physically, look for robots with emergency stop mechanisms, collision detection, cliff sensors, and speed-limiting features when operating near people or pets. Digitally, understand what data the robot collects, where it is stored, who can access it, and whether the manufacturer has a clear privacy policy. For robots with cameras and microphones, hardware privacy indicators (LED lights when recording) and physical mute switches provide important transparency and control.
Robotics purchases represent significant investments, making warranty terms and after-sales support critical evaluation criteria. Standard warranties in the industry range from one to three years, with some manufacturers offering extended warranty options. Beyond warranty length, consider what the warranty covers — some exclude consumable parts like brushes and filters. Also evaluate the manufacturer's service infrastructure: do they have authorized repair centers in your region? Is support available by phone, email, or chat? Response times and repair turnaround times can vary significantly between companies. User community forums and third-party repair guides can supplement official support.
The sticker price of a robot is just the beginning. Total cost of ownership includes the initial purchase price, replacement parts and consumables, electricity for charging, any subscription fees for cloud or premium features, and potential repair costs. For commercial robots, add integration, training, and downtime costs. For consumer robots, factor in accessories like extra mop pads, replacement brushes, or boundary accessories. A thorough TCO analysis over the expected product lifetime — typically three to five years for consumer robots and longer for commercial platforms — provides a much more accurate picture of value than purchase price alone.
For model-specific ownership details, visit individual robot pages or contact Vbot directly.
Successful robot deployment depends on preparation that goes well beyond selecting the right model.
Research deployments require controlled conditions that differ from commercial settings. Verify that the lab space meets the robot's power requirements, including dedicated circuits for charging stations and any auxiliary computing hardware. Plan for motion capture or external sensor arrays if your research protocol requires ground-truth positioning data. Establish clear demarcation between the robot's active workspace and personnel areas, especially for platforms with manipulator arms or high-speed locomotion capabilities. Document the software development environment requirements, including supported operating systems, SDK dependencies, and network configurations needed for remote operation and data collection.
Robots intended for outdoor use must contend with weather variability, terrain inconsistency, and environmental hazards that indoor deployments avoid entirely. Evaluate the robot's IP rating against your local climate — rain, snow, dust, and temperature extremes all affect reliability differently. Map the operating area for slope gradients, surface material transitions (concrete to grass to gravel), and seasonal changes like leaf cover or ice formation. Plan charging and shelter infrastructure that keeps the robot operational through extended outdoor duty cycles. Consider how GPS accuracy, cellular connectivity, and sensor performance degrade in adverse conditions and build operational margins into your deployment plan.
Even highly autonomous robots require human operators who understand normal behavior, can recognize anomalies, and know when and how to intervene. Develop a training program that covers daily operations (startup, shutdown, charging), routine maintenance (cleaning sensors, checking mechanical wear), and emergency procedures (manual override, safe power-down, physical recovery from stuck positions). Integrate robot operations into existing workflow documentation so that robot tasks and human tasks have clear handoff points. Track operator confidence levels over time and provide refresher training when procedures change or new capabilities are deployed through software updates.
Define measurable success criteria before the robot arrives. For cleaning robots, this might be coverage percentage and cleaning quality scores. For commercial service robots, track task completion rates, customer interaction quality, and mean time between interventions. For research platforms, establish reproducibility metrics and data quality thresholds. Having objective benchmarks prevents the common failure mode where a robot is judged impressive in demos but disappointing in sustained operation. Create a 30-60-90 day evaluation framework with specific milestones at each stage, and define clear decision points for scaling up, adjusting configuration, or discontinuing the deployment.
The purchase price of a robot is typically a fraction of the total cost of ownership over its operational lifetime. Model the full cost picture including consumables (filters, brushes, wheels, batteries), scheduled maintenance (sensor calibration, actuator inspection, firmware updates), unscheduled repairs (motor replacement, sensor failure, structural damage), and operational costs (electricity, network bandwidth, operator time). Request maintenance schedules and spare-part pricing from the manufacturer before purchase. For commercial deployments, calculate the break-even point against the labor or service cost the robot replaces, factoring in realistic uptime assumptions rather than manufacturer-stated maximums. Revisit the cost model quarterly as real operating data replaces initial estimates.
Deployment planning is iterative — capture lessons learned and refine your approach as you progress with Vbot products.
All Vbot robot data on ui44 is verified against official manufacturer sources, spec sheets, and press releases. Most recent verification: 2026-05-01. If you notice outdated or incorrect data, please let us know — accuracy is our top priority.
Go beyond the spec sheet
Full specifications, side-by-side comparisons, and buyer guides for every robot.