Commercial model
Pricing not public
Price has not been officially announced; AGIBOT unveiled the G2 Air at its 2026 Partner Conference.. That usually means the final commercial package depends on deployment scope, services, or negotiated terms.
Robot dossier
G2 Air
Release
Apr 1, 2026
Price
Price TBA
Connectivity
1
Status
Development
Speed
≥1.5 m/s
Payload
3 kg
Commercial
Development
G2 Air
AGIBOT G2 Air is a compact single-arm mobile manipulator unveiled with the company's 2026 Partner Conference hardware lineup. It is designed for light-duty human-in-the-loop collaboration in retail, hospitality, logistics, and structured industrial workflows. AGIBOT's launch materials specify a 7-DOF arm, 3 kg payload, 750-800 mm reach, sub-800 mm width, speeds of at least 1.5 m/s, zero-radius turning, real-time task/data capture during operation, and an upgrade path from assisted operation toward fuller autonomy.
Listed price
Price TBA
Price has not been officially announced; AGIBOT unveiled the G2 Air at its 2026 Partner Conference.
Release window
Apr 1, 2026
Current status
Development
AGIBOT
Last verified
May 1, 2026
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Technical overview
Core specifications and system stack
A fast read on the mechanical profile, sensing package, and platform integrations behind G2 Air.
Technical Specifications
Height
Not officially disclosed
Weight
Not officially disclosed
Dimensions
Sub-800 mm width; 750-800 mm arm reach
Battery Life
Not officially disclosed
Charging Time
Not officially disclosed
Max Speed
≥1.5 m/s
Payload
3 kg
Tech Components
Sensors (1)
Connectivity (1)
Operational profile
How this robot is configured
Capabilities
10
Connectivity
1
Key capabilities
Single-Arm Mobile Manipulation7-DOF ArmHuman-in-the-Loop OperationReal-Time Task/Data CaptureUMI-Isomorphic Data LayoutZero-Radius TurningCompact Operation in Sub-800 mm SpacesAssisted-Operation-to-Autonomy Upgrade Path
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About the G2 Air
1Sensor1Protocol10Capabilities
The G2 Air is a Commercial robot built by AGIBOT. AGIBOT G2 Air is a compact single-arm mobile manipulator unveiled with the company's 2026 Partner Conference hardware lineup. It is designed for light-duty human-in-the-loop collaboration in retail, hospitality, logistics, and structured industrial workflows. AGIBOT's launch materials specify a 7-DOF arm, 3 kg payload, 750-800 mm reach, sub-800 mm width, speeds of at least 1.5 m/s, zero-radius turning, real-time task/data capture during operation, and an upgrade path from assisted operation toward fuller autonomy.
Pricing has not been publicly disclosed — typical for robots still in development. See all AGIBOT robots on the AGIBOT page.
Spec Breakdown
Detailed specifications for the G2 Air
Height
Not officially disclosedAt Not officially disclosed, the G2 Air is sized for its intended operating environment and use cases.
Weight
Not officially disclosedWeighing Not officially disclosed, the G2 Air balances structural integrity with portability and maneuverability.
Dimensions
Sub-800 mm width; 750-800 mm arm reachThe overall dimensions of Sub-800 mm width; 750-800 mm arm reach define the robot's physical footprint and determine what spaces it can navigate and what clearances it requires for operation.
Battery Life
Not officially disclosedWith a battery life of Not officially disclosed, the G2 Air can operate for sustained periods before requiring a recharge. Battery life is measured under typical operating conditions and may vary based on workload intensity and environmental factors.
Charging Time
Not officially disclosedA charging time of Not officially disclosed means the ratio of operation to downtime is an important consideration for applications requiring near-continuous availability. Some deployments use multiple robots in rotation to maintain uninterrupted service.
Maximum Speed
≥1.5 m/sA top speed of ≥1.5 m/s is calibrated for the robot's primary operating environment and safety requirements.
Payload Capacity
3 kgA payload capacity of 3 kg determines what the robot can carry or manipulate. This is a critical spec for delivery and transport tasks, defining the weight of items the robot can move.
The G2 Air uses Specific onboard compute has not been officially disclosed; AGIBOT positions G2 Air within its embodied-AI deployment stack for task execution and real-time data collection. as its intelligence backbone. This AI platform powers the robot's decision-making, perception processing, and autonomous behavior. The sophistication of the AI stack directly impacts how well the robot handles unexpected situations and adapts to new environments.
G2 Air Sensor Suite
The G2 Air integrates 1 sensor type, forming the perceptual foundation that enables autonomous operation.
This sensor configuration enables the G2 Air to perceive its environment and operate autonomously in its intended use cases. Multiple sensor modalities provide redundancy and more robust perception than any single sensor type alone.
Explore sensor technologies: components glossary · full components directory
G2 Air Use Cases & Applications
Commercial robots handle tasks in business environments — delivering food in restaurants, guiding visitors in hotels, transporting supplies in hospitals, and moving inventory in warehouses. Their value is measured in operational efficiency, labor cost savings, and improved service consistency.
Capabilities That Enable Real-World Use
The G2 Air offers 10 distinct capabilities, each contributing to the robot's practical utility.
Single-Arm Mobile Manipulation
7-DOF Arm
Human-in-the-Loop Operation
Real-Time Task/Data Capture
UMI-Isomorphic Data Layout
Zero-Radius Turning
Compact Operation in Sub-800 mm Spaces
Assisted-Operation-to-Autonomy Upgrade Path
Retail and Hospitality Workflows
Logistics and Structured Industrial Workflows
These capabilities work together with the robot's 1 onboard sensor type and Specific onboard compute has not been officially disclosed; AGIBOT positions G2 Air within its embodied-AI deployment stack for task execution and real-time data collection. AI platform to deliver practical, real-world performance.
G2 Air Capabilities
10
Capabilities
1
Sensor Type
AI
Specific onboard compute has…
Single-Arm Mobile Manipulation
7-DOF Arm
Human-in-the-Loop Operation
Real-Time Task/Data Capture
UMI-Isomorphic Data Layout
Zero-Radius Turning
Compact Operation in Sub-800 mm Spaces
Assisted-Operation-to-Autonomy Upgrade Path
Retail and Hospitality Workflows
Logistics and Structured Industrial Workflows
Connectivity & Integration
How the G2 Air communicates with your network, smart home devices, cloud services, and companion apps.
Network & Communication Protocols
Network protocols for device communication — enabling the G2 Air to participate in various networking scenarios.
G2 Air Technology Stack Overview
The G2 Air by AGIBOT integrates 3 distinct technology components across sensing, connectivity, intelligence, and interaction layers. The physical platform features a height of Not officially disclosed, a weight of Not officially disclosed, a top speed of ≥1.5 m/s, providing the foundation on which this technology stack operates.
Perception — 1 Sensor Type
The perception layer is built on Not officially disclosed. These work in concert to give the robot a detailed understanding of its operating environment. This multi-sensor approach provides redundancy and enables the robot to function reliably even when individual sensors encounter challenging conditions such as low light, reflective surfaces, or cluttered spaces.
Connectivity — 1 Protocol
For communications, the G2 Air relies on Not officially disclosed. This connectivity stack ensures the robot can communicate with cloud services, local smart home devices, mobile apps, and other networked systems in its environment.
Intelligence — Specific onboard compute has not been officially disclosed; AGIBOT positions G2 Air within its embodied-AI deployment stack for task execution and real-time data collection.
Specific onboard compute has not been officially disclosed; AGIBOT positions G2 Air within its embodied-AI deployment stack for task execution and real-time data collection. serves as the computational brain, processing sensor data, making navigation decisions, and orchestrating the robot's autonomous behaviors. The quality of this AI platform directly influences how well the robot handles novel situations, adapts to changes in its environment, and improves its performance over time through learning.
Who Should Consider the G2 Air?
Target Audience
Commercial robots are acquired by businesses including restaurants, hotels, hospitals, retail stores, and logistics facilities. Purchasing decisions typically involve operations managers and IT departments evaluating ROI against human labor costs.
Key Considerations
Reliability and uptime, navigation in crowded dynamic environments, payload capacity, integration with business systems (POS, inventory management), ease of deployment and maintenance, and total cost of ownership (including service contracts) are the primary factors.
Pricing
G2 Air does not currently have publicly listed pricing. As the robot is still in development, pricing will likely be announced closer to market availability.
Availability
DevelopmentThe G2 Air is currently in active development. Follow AGIBOT for updates on when the robot will become available for purchase or pre-order.
G2 Air: Strengths & Trade-offs
Engineering compromises and where this commercial robot excels
What the G2 Air does well
Broad capability set
With 10 distinct capabilities, the G2 Air is designed as a versatile platform rather than a single-task device. This breadth means the robot can handle varied scenarios and workflows, reducing the need for multiple specialized robots and increasing its utility across different situations.
Strong mobility performance
A top speed of ≥1.5 m/s provides the G2 Air with the agility to cover ground efficiently. This is particularly valuable for applications that require rapid response, large-area coverage, or keeping pace with human movement in shared environments.
What to consider carefully
Focused sensor set
With 1 sensor type, the G2 Air takes a minimalist approach to perception. While this keeps costs down and reduces complexity, it may limit the robot's ability to handle edge cases or operate in environments that demand multi-modal awareness. Buyers should verify that the available sensors cover their specific use-case requirements.
Undisclosed pricing
AGIBOT has not published a public price for the G2 Air. While common for enterprise-class robotics, the absence of transparent pricing can complicate budgeting and comparison shopping. Prospective buyers will need to engage directly with the manufacturer for quotes, which may vary by configuration and volume.
Currently in development
The G2 Air is not yet available as a finished, shipping product. Specifications may change before commercial release, and timelines for availability are subject to revision. Early adopters should account for this uncertainty in their planning.
Limited ecosystem integration info
No specific smart home or ecosystem compatibility is listed for the G2 Air. This does not necessarily mean the robot lacks integration options — the information may not yet be published — but buyers who rely on specific platforms (Apple HomeKit, Google Home, Amazon Alexa, etc.) should verify compatibility before purchasing.
Note: This strengths and trade-offs assessment is based on the G2 Air's documented specifications as tracked in the ui44 database. Real-world performance depends on deployment conditions, firmware maturity, and environmental factors. For the most current information, check the AGIBOT manufacturer page or visit the official product page. Use the comparison tool to evaluate these trade-offs against competing robots in the same category.
How Commercial Robot Technology Works
Understanding the engineering behind this category
Commercial robots operate in the demanding intersection of technology and business operations. From restaurant servers to warehouse movers, these robots must perform reliably in dynamic, crowded environments while delivering measurable return on investment. The technology behind commercial robots emphasizes reliability, integration with business systems, and graceful handling of the unpredictable situations that characterize human-occupied commercial spaces.
Navigation & Mobility
Commercial robots navigate environments that are significantly more challenging than typical homes — crowded restaurant floors, busy hotel lobbies, and dense warehouse aisles all present unique navigation challenges. These robots typically use LiDAR combined with depth cameras for robust obstacle detection, with special attention to detecting low-height obstacles (children, pets, dropped items) and moving obstacles (people walking unpredictably). Commercial-grade navigation includes fleet coordination — multiple robots sharing maps and position data to avoid congestion and optimize collective efficiency. Elevator integration allows robots to serve multiple floors autonomously.
The Role of AI
AI in commercial robots focuses on operational efficiency and customer interaction. Route optimization minimizes delivery times in restaurants. Task prioritization ensures urgent orders are handled first. Customer-facing AI must handle natural language interaction in noisy environments, provide useful information, and maintain a professional and brand-appropriate demeanor. Back-end AI integrates with business systems — restaurant POS (Point of Sale), hotel PMS (Property Management System), warehouse WMS (Warehouse Management System) — to receive tasks and report completions automatically. Predictive AI anticipates demand patterns, pre-positioning robots where they will be needed based on historical data.
Sensor Fusion & Perception
Commercial robots combine navigation sensors (LiDAR, cameras, ultrasonic) with application-specific sensors. Restaurant delivery robots use weight sensors to confirm payload presence and tilt sensors to maintain tray stability. Warehouse robots use barcode or RFID readers for inventory tracking. Hotel robots may include temperature sensors for room-service food. All commercial robots share the need for robust human detection — they must navigate safely around unpredictable human movement while maintaining efficient operation. Edge-case handling is critical: a restaurant robot must correctly respond to a child running into its path, a guest stepping backward without looking, or a server carrying a full tray through a narrow aisle.
Power & Battery Management
Commercial operations demand high uptime, making power management a business-critical concern. Robots serving during peak hours cannot afford lengthy charging breaks. Solutions include fast-charging docks positioned at strategic locations, hot-swappable battery packs for zero-downtime operation, and intelligent charging schedules that top up during naturally low-demand periods. Fleet management systems monitor battery levels across all robots and redistribute tasks to ensure no single robot runs critically low during service. Power consumption monitoring also feeds into TCO (Total Cost of Ownership) calculations that businesses use to evaluate robot deployment ROI.
Safety by Design
Commercial robots operate in regulated business environments with specific safety requirements. Food-handling robots must meet hygiene standards. Robots in public spaces must comply with accessibility requirements, avoiding blocking wheelchair paths or emergency exits. Speed limits are typically set below walking pace in pedestrian areas. Visual and audio signals indicate the robot's presence and intent — lights, gentle sounds, or voice announcements warn nearby people. Payload security ensures items being transported cannot fall. In warehouse environments, safety zones around humans trigger automatic speed reduction or stopping. Integration with building fire alarm and evacuation systems ensures robots do not obstruct emergency procedures.
What's Next for Commercial Robots
Commercial robotics is moving toward greater specialization and deeper business system integration. Rather than general-purpose commercial platforms, expect more robots designed specifically for restaurant table service, hotel room delivery, warehouse aisle picking, or retail shelf scanning. Fleet orchestration — coordinating dozens of robots across a large facility — will become more sophisticated. The business model is also evolving, with Robotics-as-a-Service (RaaS) subscriptions replacing upfront purchases, lowering the barrier to adoption for small and medium businesses.
The G2 Air by AGIBOT incorporates many of these technology pillars. For a detailed look at the specific sensors and components used in the G2 Air, see the sensor analysis and connectivity sections above, or browse the complete components glossary for explanations of every technology used across the robotics industry.
G2 Air in the Commercial Market
How this robot compares in the commercial landscape
AGIBOT has not publicly disclosed pricing for the G2 Air, which is typical for enterprise-focused robotics platforms that offer customized solutions and direct-sales relationships.
With 1 sensor type, the G2 Air takes a focused approach to perception, prioritizing the sensor modalities most relevant to its specific tasks rather than carrying a broad general-purpose sensor array.
As a robot still in development, the G2 Air represents AGIBOT's vision for where commercial robotics is heading. Specifications may evolve before commercial release, and early performance demonstrations should be evaluated with this context in mind.
Head-to-Head Comparisons
Side-by-side specs, capability overlap analysis, and key differentiators.
For the full picture of AGIBOT's portfolio and market strategy, visit the AGIBOT manufacturer page.
Deployment Readiness and Procurement Signals for G2 Air
What the public profile tells you, and what still needs direct vendor confirmation
From a buying and rollout perspective, the G2 Air should be read as a commercial platform aimed at service operations that need predictable task throughput. ui44 currently tracks 10 capability signals, 1 sensor input, and a last verification date of 2026-05-01. That mix gives buyers a useful first-pass picture, but it is still only the public layer of due diligence, especially when procurement, uptime, and support commitments are decided directly with AGIBOT.
Integration posture
1 connectivity option
The profile lists Not officially disclosed, plus Specific onboard compute has not been officially disclosed; AGIBOT positions G2 Air within its embodied-AI deployment stack for task execution and real-time data collection. as the AI stack. That is enough to infer the basic network posture, but buyers should still confirm APIs, fleet management, and workflow integration details. ui44 does not yet list formal compatibility targets for this robot.
Spec disclosure
3/7 core specs public
ui44 currently has 3 of 7 core physical and operating specs filled in for this model, leaving 4 gaps that matter for deployment planning. Missing runtime, charge, speed, or payload details can materially change staffing and site-readiness assumptions.
The current profile is useful for scouting, but it still leaves meaningful operational unknowns. If this robot is heading toward a pilot or purchase discussion, the next step should be a structured vendor Q&A that fills the remaining runtime, charging, payload, safety, or integration blanks before anyone builds ROI assumptions around it.
If you want a faster apples-to-apples read, compare the G2 Air against nearby alternatives in ui44's compare view, then cross-check the underlying AI, sensor, and subsystem terms in the components glossary. For manufacturer-level context, the AGIBOT profile helps anchor this robot inside the wider product lineup.
Before you sign off on a pilot, confirm these points
- Ask for real shift runtime under the intended workload, not just standby endurance.
- Confirm how the charging workflow works in practice, including charger count, swap options, and expected downtime.
- Request concrete API, integration, or workflow examples instead of assuming the robot will drop into an existing stack.
- Check what safety, electrical, or deployment certifications exist for the region and task you care about.
Owning the G2 Air: Setup, Maintenance & Tips
Practical guide from day one through years of ownership
Initial Setup
Commercial robot deployment is a project, not just a setup. Begin with a site assessment covering floor plans, traffic patterns, integration requirements, and staff training needs. Map the operating environment with the robot, marking restricted areas, service points, and charging stations. Integrate with business systems — POS for restaurants, PMS for hotels, WMS for warehouses. Train staff on robot interaction, troubleshooting, and emergency procedures. Run a supervised pilot period before transitioning to full autonomous operation. Gather and address staff and customer feedback during the pilot to optimize the deployment before scaling.
Ongoing Maintenance
Commercial robots earn their keep through consistent operation, making maintenance an operational priority rather than an afterthought. Establish daily visual inspection routines for operations staff. Schedule weekly maintenance windows for thorough cleaning, sensor calibration, and software updates. Track key performance indicators — delivery times, task completion rates, customer feedback — to detect performance degradation before it becomes noticeable. For food-handling robots, follow strict hygiene protocols including regular sanitization of tray surfaces and contact points. Multi-robot deployments benefit from staggered maintenance schedules to maintain coverage.
Software Updates & Long-Term Support
Commercial robot updates can add new capabilities, improve navigation in your specific environment, and fix operational edge cases. The manufacturer may release updates based on fleet-wide learning — improvements discovered at one deployment benefiting all customers. Test significant updates during low-traffic periods before deploying to your full fleet. Keep communication channels open with your robot vendor's support team to provide feedback that can drive improvement in future updates.
Maximizing Longevity
Commercial robots in daily operation can last three to five years or more with proper care. The primary wear items are wheels, motors, and batteries. Maintain a spare parts inventory for consumables to minimize downtime. Track operating hours and correlate with maintenance needs to develop predictive maintenance schedules specific to your deployment conditions. Consider the total cost of ownership over the deployment lifetime when evaluating robot vendors — the cheapest robot up front may cost more over five years if parts are expensive or support is limited.
For AGIBOT-specific support resources and documentation, visit the AGIBOT page on ui44 or check the manufacturer's official website at AGIBOT's product page.
Frequently Asked Questions
What is the G2 Air?
The G2 Air is a Commercial robot made by AGIBOT. AGIBOT G2 Air is a compact single-arm mobile manipulator unveiled with the company's 2026 Partner Conference hardware lineup. It is designed for light-duty human-in-the-loop collaboration in retail, hospitality, logistics, and structured industrial workflows. AGIBOT's launch materials specify a 7-DOF arm, 3 kg payload, 750-800 mm reach, sub-800 mm width, speeds of at least 1.5 m/s, zero-radius turning, real-time task/data capture during operation, and an upgrade path from assisted operation toward fuller autonomy. It features 1 sensor types, 1 connectivity protocols, and 10 distinct capabilities.
How much does the G2 Air cost?
AGIBOT has not disclosed public pricing for the G2 Air. Pricing is typically announced closer to market release. Price has not been officially announced; AGIBOT unveiled the G2 Air at its 2026 Partner Conference.
Is the G2 Air available to buy?
The G2 Air is currently in active development and is not yet available for purchase. Follow AGIBOT for release date announcements.
What sensors does the G2 Air have?
The G2 Air is equipped with 1 sensor type: Not officially disclosed. These sensors work together through sensor fusion to provide comprehensive environmental awareness for autonomous operation. See the sensor analysis section for details.
How long does the G2 Air battery last?
The G2 Air has a rated battery life of Not officially disclosed and charges in Not officially disclosed. Actual battery performance may vary based on usage intensity, ambient temperature, and specific tasks being performed. Heavy workloads like continuous navigation and sensor processing will consume battery faster than idle or standby modes.
What AI does the G2 Air use?
The G2 Air is powered by Specific onboard compute has not been officially disclosed; AGIBOT positions G2 Air within its embodied-AI deployment stack for task execution and real-time data collection.. This AI platform handles the robot's perception processing, decision-making, and autonomous behavior. The sophistication of the AI directly impacts how well the robot handles unexpected situations, learns from its environment, and improves over time.
How does the G2 Air compare to the PUDU FlashBot Arm?
The G2 Air and PUDU FlashBot Arm are both commercial robots, but they differ in key specifications, pricing, and manufacturer approach. Use the side-by-side comparison tool to see detailed differences in specs, sensors, and capabilities. You can also browse other similar robots below.
How current is the G2 Air data on ui44?
The G2 Air specifications on ui44 were last verified on 2026-05-01. All data is sourced from official AGIBOT documentation, spec sheets, and press releases. If you notice any outdated information, please let us know.
Data Integrity
All G2 Air data on ui44 is verified against official AGIBOT sources, including spec sheets, product pages, and press releases. Last verified: 2026-05-01. Official source: AGIBOT product page. If you find outdated or incorrect information, please let us know — accuracy is our top priority.
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