Components / Mobile App
Connectivity 2 variants normalized

Mobile App

Mobile App appears across 5 tracked robots, concentrated in Cleaning, Humanoid, and Lawn & Garden. Use this page to understand why the signal matters, who relies on it most, and which live profiles deserve the first comparison click.

Tracked robots

5

Ready now

2

Manufacturers

5

Public prices

3

Market snapshot Robot directory FAQ Reference library

Why it matters

What it tends to unlock

Remote access, orchestration, and software maintenance, ecosystem fit across apps, fleets, and smart-home layers, and faster rollout of updates, telemetry, and support workflows.

What to verify

Do not stop at the label

Real protocol support, not just marketing labels, offline behavior, pairing friction, and network dependency, and whether the stack stays useful when the vendor service changes.

Coverage

3 categories

The heaviest concentration is in Cleaning (3), Humanoid (1), and Lawn & Garden (1). Top manufacturers include Beatbot (1), Dreame (1), and Faraday Future (1).

Research brief

Research first. Sweep the roster second.

The useful questions here are how common Mobile App really is, which robot classes depend on it, and which live profiles are worth opening before you compare the whole stack.

Verified 30d

3

5 in the last 90 days

Top category

Cleaning

3 tracked robots

Paired most often with

3D LiDAR, Wi-Fi, and 12 High-precision Sensors

Connectivity

Market snapshot

Category concentration, manufacturer repetition, and the strongest adjacent signals.

Dense inventory

Featured first clicks up top, then the full scannable robot table below.

Browse the full Connectivity layer

Open the workbench when this one component is too narrow for the decision.

Compare the clearest profiles

Use the strongest ready-now matches as the fastest comparison anchor.

Decision brief

What matters before you compare implementations

Where it helps most

  • remote access, orchestration, and software maintenance
  • ecosystem fit across apps, fleets, and smart-home layers
  • faster rollout of updates, telemetry, and support workflows

What to validate

  • real protocol support, not just marketing labels
  • offline behavior, pairing friction, and network dependency
  • whether the stack stays useful when the vendor service changes

Evidence basis

What this route is grounded in

  • Aggregated from each robot's `specs.connectivity` field in ui44 data.

Source pack

Official reference links

4
S3WYBOT · CleaningFF MasterFaraday Future · HumanoidAquaSense XBeatbot · CleaningPantherRoboBooster · Lawn & Garden

Market snapshot

Use the structure first: which categories lean on Mobile App, which manufacturers repeat it, and what usually ships beside it.

Lead category

Cleaning

3 tracked robots currently anchor this label.

Most repeated manufacturer

Beatbot

1 tracked robots make this the clearest manufacturer-level signal on the route.

Most common adjacent signal

3D LiDAR

2 shared robots pair this component with 3D LiDAR.

Top categories

# Name Usage
1 Cleaning 3 robots
2 Humanoid 1 robot
3 Lawn & Garden 1 robot

Top manufacturers

# Name Usage
1 Beatbot 1 robot
2 Dreame 1 robot
3 Faraday Future 1 robot
4 RoboBooster 1 robot
5 WYBOT 1 robot

Commonly paired with Mobile App

# Name Shared robots
1 3D LiDAR 2 robots
2 Wi-Fi 2 robots
3 12 High-precision Sensors 1 robot
4 29 Integrated Sensors 1 robot
5 36 Integrated Sensors 1 robot
6 3d Mapping And Smart Navigation 1 robot

How to read the market

Structure first, prose second.

Category concentration tells you where the component is actually doing work, manufacturer repetition shows whether the signal is market-wide or vendor-specific, and pairings reveal which neighboring technologies usually ship alongside it.

At a glance

Kind Connectivity
Tracked robots 5
Ready now 2
Public prices 3
Official sources 5
Variants normalized 2

Robot directory · Mobile App

The old card wall is replaced with a featured first-click strip and a dense inventory table so the route behaves like a serious directory.

Directory briefing

Featured first, dense sweep second.

Open the clearest profiles first, then sweep the full inventory in a denser table. Featured cards are selected by readiness, image quality, and official source availability, so the first click is usually the most informative one.

Ready now

2

Public price

3

Official links

5

Featured now

3

How to scan this directory

Use the shortest credible path through the roster.

  • Featured cards: start with the strongest documented profiles to understand real implementation quality fast.
  • Inventory table: sweep the whole market once you know which profiles deserve serious comparison.
  • Compare intent: use status, official links, and standout specs before treating the label itself as proof.
Compare the strongest first-click robots

Best first clicks

Open these before sweeping the full inventory

These robots score highest on readiness, public detail quality, and image clarity, making them the fastest way to understand how Mobile App shows up in practice.

Active Cleaning
WYBOT Since 2026

S3

WYBOT's S3 is a premium cordless robotic pool cleaner for outdoor in-ground pools. Official WYBOT materials position it as a flagship model with first-run 3D pool mapping, AI-guided debris detection, real-time app positioning, and an Omni Dock that automatically handles docking, charging, and debris transfer into a 10L shore-side bin. WYBOT says the S3 can clean pool floors, walls, and waterlines for up to 180 minutes per cycle, with solar and DC dock charging designed to reduce hands-on maintenance.

Public price

$3,000

WYBOT's current official US product…

Battery

Up to 180 minutes per cleaning cycle

Shortlist read

Active in the catalog; verify the latest media and rollout details.

Profile
Active Humanoid
Faraday Future Since 2026

FF Master

Compact athletic humanoid robot from Faraday Future's EAI Robotics division, launched alongside the FF Futurist at the NADA Show in Las Vegas on February 5, 2026. Standing 131 cm tall and weighing 39 kg, the FF Master is designed for home companion, educational, and interactive roles rather than heavy professional tasks. It is powered by an NVIDIA Jetson Orin NX processor delivering 157 TOPS of AI compute and features 30 degrees of freedom in its body with five-fingered dexterous hands (7 DOF per arm). The robot's 30 high-efficiency drive motors produce up to 120 Nm of peak torque, enabling agile motion at speeds up to 7.2 km/h. Its perception suite includes 3D LiDAR, stereo RGB cameras, an interactive RGB camera, an RGB-D camera, and a rear RGB camera, with connectivity/control via Wi-Fi, Bluetooth, 4G, 5G, the mobile app, and VR teleoperation. FF positions the Master as a home and family companion — it can help children with homework, converse with elderly family members, assist in remote home monitoring through onboard cameras and sensors, and serve as an interactive presence at events and in classrooms. The robot supports natural language interaction in up to 50 languages and is designed to adapt and learn new skills over time through OTA software updates. First deliveries began in late February 2026, with over 20 units shipped by March 2026.

Public price

$19,990

Starting at $19,990; optional Ecosystem…

Battery

Up to 2 hours

Shortlist read

Active in the catalog; verify the latest media and rollout details.

Profile
Pre-order Cleaning
Beatbot Since 2026

AquaSense X

Beatbot's AquaSense X is a cordless robotic pool cleaner paired with the AstroRinse self-cleaning docking station, making it the first robotic pool cleaner that cleans its own filter automatically. After each cycle the robot docks, a rotating spray arm rinses the 5-liter internal filter basket, push rods extract debris into a 22-liter collection bin, and the station seals back up in about three minutes — the bin holds up to 3,000 leaves and may need emptying only every two months. The robot uses HybridSense AI Vision backed by 29 sensors (AI camera, infrared array, ultrasonic) to map the pool, recognize over 40 debris types, and adapt cleaning paths in real time. Eleven brushless motors deliver 6,800 GPH suction with 150-micron filtration, and a 13,400 mAh battery provides up to 10 hours of surface cleaning or 5 hours of floor/wall cleaning per charge. Seven cleaning modes cover floors, walls, waterline, elevated platforms, and the water surface, with dual 1,500-lux LED lights enabling night operation. The AstroRinse station handles 88W wireless charging (roughly 4.5 hours to full) and is weather-resistant with UV-resistant and corrosion-proof construction. CES 2026 Innovation Awards Honoree.

Public price

$4,250

Official Beatbot store lists the…

Battery

Up to 10 hours (surface), up to 5 hours (floor or wall/waterline)

Charge Approximately 4.5 hours (88W wireless via AstroRinse dock)

Shortlist read

Commercial intent is clear, but delivery timing should be validated.

Profile

Full inventory · 5 robots

Compact mobile scan: status, price, standout context, and links stay visible without sideways scrolling.

Quick answers

FAQ

The short version of what this label means in the ui44 catalog, where it matters, and how to compare it without over-reading the marketing copy.

Frequently Asked Questions

How common is Mobile App in the database?

Mobile App currently appears on 5 tracked robots across 5 manufacturers. That makes this route useful for both deep research and fast shortlist scanning, not just one-off editorial reading.

Which robot categories lean on Mobile App the most?

The strongest concentration is in Cleaning (3), Humanoid (1), and Lawn & Garden (1). Category mix is the fastest clue for whether this component behaves like baseline plumbing or a more selective differentiator.

Does Mobile App usually show up on ready-to-buy robots?

2 of the 5 tracked profiles are currently marked Available or Active. That means the label has live market relevance here, but you should still open the profiles with public pricing or official links first before treating it as a clean buyer signal.

What should I compare first on this page?

Start with readiness, official source quality, and the standout spec column in the inventory table. On component routes, those three signals usually remove weak profiles faster than reading every descriptive paragraph.

What usually ships alongside Mobile App?

The strongest shared-stack signals here are 3D LiDAR (2), Wi-Fi (2), and 12 High-precision Sensors (1). Use those pairings to branch into adjacent component pages when one label is too narrow for the decision.

Are there enough public price points to benchmark this component?

3 matching robots currently expose public pricing. That is enough to create directional context, but not enough to treat one price bracket as the whole market. Use the directory to find the transparent profiles first, then widen the sweep.

Which manufacturers are worth opening first?

Start with Beatbot (1), Dreame (1), and Faraday Future (1). Repetition across manufacturers is often the clearest signal that the component is part of a stable market pattern rather than a one-off marketing callout.

Reference library

The original long-form component research is still here, but collapsed so the main route can prioritize hierarchy and scan speed.

Fundamentals

The baseline explanation of what Mobile App is, why it matters, and how to think about it before comparing implementations.

What Is Mobile App?

Mobile App is a connectivity component found in 5 robots tracked in the ui44 Home Robot Database. As a connectivity technology, Mobile App plays a specific role in enabling robot perception, interaction, or operation depending on its implementation in each platform.

At a Glance

Component Type

Connectivity

Used By

5 robots

Manufacturers

Beatbot, Faraday Future, RoboBooster +2 more

Categories

Cleaning, Humanoid, Lawn & Garden

Price Range

$3.0k – $20.0k

Available Now

2 robots

Connectivity components define how a robot communicates with other devices, networks, and cloud services. Connectivity determines whether a robot can receive software updates, stream data, integrate with smart home systems, and be remotely controlled.

Key Points

  • Includes wireless protocols (Wi-Fi, Bluetooth, Zigbee), wired interfaces (Ethernet, USB), and cellular
  • Enables software updates, cloud integration, and remote control
  • Determines smart home ecosystem compatibility

In the ui44 database, Mobile App is categorized under Connectivity components. For a comprehensive explanation of all component types, consult the components glossary.

Why Mobile App Matters in Robotics

A robot's connectivity stack determines its ecosystem compatibility and long-term value. Limited connectivity can mean the robot operates in isolation, cannot be updated, or requires specific hub hardware.

Broad connectivity support means more smart home platform integrations

Enables over-the-air updates that improve the robot over time

Allows remote monitoring and control from anywhere

Mobile App Adoption

Used in 5 robots across 3 categories (Cleaning, Humanoid, Lawn & Garden), indicating broad applicability across the robotics industry.

How Mobile App Works

Wireless connectivity uses radio frequencies to transmit data between the robot and other devices. The robot's firmware manages protocol switching and connection prioritization automatically.

1

Wi-Fi

High-bandwidth local network access for data-heavy tasks like video streaming

2

Bluetooth

Direct device-to-device pairing for initial setup and nearby peripherals

3

Zigbee / Z-Wave

Low-power mesh networking for IoT device coordination

4

Cellular (4G/5G)

Operation beyond home Wi-Fi range for outdoor or commercial robots

Mobile App Integration

Implementation varies by robot platform and manufacturer. Each robot integrates Mobile App differently depending on system architecture, use case, and target tasks. Integration with other onboard connectivity modules and the main processing unit determines real-world performance.

Technical notes and use cases

Deeper technical framing, matched technology profiles, and the longer use-case treatment for Mobile App.

Mobile App: Technical Deep Dive

Beyond the high-level overview, understanding the technical foundations of connectivity technologies like Mobile App helps buyers and researchers evaluate implementations more critically.

Engineering Principles

Wireless connectivity relies on electromagnetic radiation at specific frequency bands regulated by international standards bodies.

  • Wi-Fi: 2.4 GHz and 5 GHz bands (Wi-Fi 6E/7 extends to 6 GHz)
  • Bluetooth: 2.4 GHz ISM band with frequency hopping
  • Zigbee/Thread: 2.4 GHz with mesh networking topologies
  • Cellular: licensed spectrum bands for wide-area coverage

Performance Characteristics

For robotics, latency is often more critical than raw bandwidth.

Bandwidth Data transfer rate — video streaming needs several Mbps sustained
Latency Delay between send/receive — remote control needs sub-100ms
Range Wi-Fi: ~30m indoors through walls, 100m+ in open spaces
Reliability Packet loss rate and connection stability under interference

Technological Evolution

Robot connectivity has evolved from simple serial cables to sophisticated multi-protocol wireless systems.

Early robots: basic infrared remote control or proprietary radio links

Standardized protocols (Wi-Fi, Bluetooth) dramatically improved interoperability

IoT-specific protocols (Zigbee, Z-Wave, Thread) enabled efficient smart home integration

Matter standard (2022): unifying smart home communication under a single application layer

Known Limitations

Wireless connectivity faces inherent challenges in home environments.

  • Signal attenuation through walls, floors, and ceilings creates dead zones
  • Interference from growing wireless device density degrades performance
  • Security: every wireless connection is a potential attack surface
  • Cloud dependency: robots requiring internet for basic functions fail during outages
  • Wireless communication is a significant power consumer for battery-powered robots

Use Cases & Applications for Mobile App

Key application domains for connectivity technologies like Mobile App.

Smart Home Integration

Connectivity allows robots to communicate with other smart home devices — thermostats, lights, locks, cameras, and appliances. A well-connected robot can serve as a mobile hub or coordinator for your smart home, executing routines that involve multiple devices across different rooms.

Remote Monitoring & Control

Wi-Fi and cellular connectivity enable users to monitor and control their robot remotely via smartphone apps. This is particularly valuable for security robots, pet-monitoring robots, and home assistants, allowing owners to check in, receive alerts, and issue commands from anywhere.

Over-the-Air Updates

Network connectivity is essential for receiving firmware and software updates that improve the robot's capabilities, fix bugs, and patch security vulnerabilities. Robots without reliable connectivity may become outdated quickly and miss important safety updates.

Cloud AI Processing

Some robots offload computationally intensive AI tasks to cloud servers via network connections. This allows smaller, more affordable robots to access powerful AI capabilities like advanced natural language processing, image recognition, and complex decision-making that would be impossible with on-device hardware alone.

Multi-Robot Coordination

In commercial and industrial settings, connectivity allows multiple robots to coordinate their activities, share maps, divide tasks, and avoid interfering with each other. This fleet management capability requires reliable, low-latency communication between robots and a central coordination system.

52 Capabilities Across 5 robots

Cordless robotic pool cleaning Floor, wall, waterline, surface, and elevated-platform cleaning AstroRinse automatic filter cleaning and debris disposal (22L bin) 88W wireless dock charging Smart Water Surface Parking and SmartDrain ClearWater natural water clarification AI debris detection and adaptive cleaning paths Night cleaning with dual 1,500-lux LED lights App and voice control Saltwater pool support (up to 5,000 ppm) Bipedal Walking Autonomous Navigation Obstacle Avoidance Dexterous Manipulation (7-DOF arms, 5-finger hands) Natural Language Interaction (up to 50 languages) Adaptive Learning +36 more

Visit each robot's detail page to see which capabilities are available on specific models.

Market breakdown and adjacent routes

Manufacturer mix, specs context, price context, category overlap, and adjacent components worth branching into next.

Mobile App by Manufacturer

Mobile App is used by 5 manufacturers — showing how widely this technology is deployed across the industry.

Manufacturer Models
Beatbot 1 robot
Faraday Future 1 robot
RoboBooster 1 robot
WYBOT 1 robot
Dreame 1 robot

Specifications Comparison: Robots With Mobile App

Side-by-side comparison of all 5 robots using Mobile App.

Robot Price Status
AquaSense X $4.3k Pre-order
FF Master $20.0k Active
Panther Pre-order
S3 $3.0k Active
Zircon 2 Pro Development

Mobile App Across Robot Categories

Mobile App spans 3 robot categories — from consumer to research platforms.

Cleaning

3

robots using Mobile App

Avg. price: $3.6k

AquaSense X

S3

Zircon 2 Pro

Humanoid

1

robot using Mobile App

Avg. price: $20.0k

FF Master

Lawn & Garden

1

robot using Mobile App

Panther

Technologies most often paired with Mobile App across 5 robots.

Wi-Fi
40%
Google Home
40%
Apple Siri
40%
3D LiDAR
40%
29 integrated sensors
20%
AI camera
20%
Infrared array
20%
Ultrasonic sensors
20%
HybridSense AI Vision system
20%
Alexa voice control
20%
Amazon Alexa
20%
HybridSense AI Vision with 40+ debris-type recognition, adaptive path planning, real-time obstacle avoidance, and seven smart cleaning modes
20%
Stereo RGB Cameras
20%
Interactive RGB Camera
20%
RGB-D Camera
20%

Browse the full components directory or see the components glossary for detailed explanations of each technology.

Price Context for Robots With Mobile App

3 of 5 robots with Mobile App have public pricing, ranging $3.0k$20.0k. 2 robots use custom or enterprise pricing.

Lowest

$3.0k

S3

Average

$9.1k

3 robots with pricing

Highest

$20.0k

FF Master

Alternatives to Mobile App

243 other connectivity technologies tracked in ui44, ranked by adoption.

Wi-Fi

114 robots · 2 also use Mobile App

Bluetooth

66 robots · 1 also use Mobile App

Ethernet

35 robots

Not Officially Disclosed

21 robots

Wi-fi 6

14 robots

Bluetooth 5.2

13 robots

5G

9 robots · 1 also use Mobile App

App Control

8 robots

Browse all Connectivity components or use the robot comparison tool to evaluate how different connectivity configurations perform across specific robot models.

Mobile App in the Broader Robotics Industry

Robot connectivity is evolving rapidly as the smart home ecosystem matures and new wireless standards emerge. Supporting the right mix of protocols is a strategic decision for manufacturers.

Key Industry Trends

Wi-Fi 6/7 adoption

Better performance in dense device environments typical of modern smart homes with dozens of connected devices

Matter protocol

Unified smart home standard backed by Apple, Google, Amazon, and Samsung — simplifying cross-platform integration

5G expansion

Opening new possibilities for outdoor robots, delivery platforms, and commercial service robots beyond home Wi-Fi

Industry Adoption Snapshot

Mobile App is adopted by 5 robots from 5 manufacturers in the ui44 database, providing a data-driven view of real-world deployment patterns.

Certifications & Standards

IPX6 IP68

Certifications carried by robots incorporating Mobile App, indicating compliance with safety, EMC, and quality standards.

Integration & Ecosystem Compatibility

Platform compatibility, voice integration, and AI capabilities across robots with Mobile App.

Platform Compatibility

Beatbot mobile appAmazon AlexaGoogle HomeApple HomeKit (Siri)FF EAI Robotics PlatformOTA UpdatesRoboBooster mobile appWYBOT mobile appB2 Pro Automatic Charging StationDreame app

Voice Platforms

Amazon AlexaGoogle HomeApple Siri

AI Platforms

HybridSense AI Vision with 40+ debris-type recognition, adaptive path planning, real-time obstacle avoidance, and seven smart cleaning modesNVIDIA Jetson Orin NX (157 TOPS)Sensor-fusion navigation combines 3D LiDAR, camera vision, and VIO for centimeter-level positioning, auto mapping, route planning, AI obstacle avoidance, and multi-zone lawn settings.AI vision debris detection with first-run 3D mapping, smart route planning, targeted spot cleaning, and real-time positioningPoolSense 2.0 maps pool environments and generates adaptive multi-pattern path planning; Dreame has not disclosed model architecture or onboard compute details.

Buyer and operations guidance

The long-form buyer, maintenance, and troubleshooting material kept available without forcing it into the main scan path.

Buyer Considerations for Mobile App

If Mobile App is an important factor in your robot selection, here are key considerations to guide your decision.

What to Look For in Connectivity Components

Wi-Fi version

Dual-band (2.4/5 GHz) is preferred for reliability in congested environments

Smart home integration

Does it work with your existing ecosystem (Alexa, Google Home, HomeKit)?

Range & reliability

Important for large homes, multi-floor coverage, or outdoor robots

Data privacy

Does the robot require cloud connectivity to function, or can it operate locally?

Available Now: 2 of 5 Robots

FF Master S3

How to Evaluate Mobile App

Integration Quality

A component is only as good as its integration. Check how the manufacturer has incorporated Mobile App into the overall robot design and software stack.

Complementary Components

Review what other connectivity technologies are paired with Mobile App in each robot — see the related components section.

Category Fit

Make sure the robot's category matches your use case. Mobile App serves different roles in different robot types.

Manufacturer Track Record

Consider the manufacturer's reputation for software updates, support, and component reliability.

Compare Before You Buy

Use the ui44 comparison tool to evaluate robots with Mobile App side by side.

Maintenance & Longevity: Mobile App

Overview

Connectivity components are generally among the most reliable parts of a robot, as they consist entirely of solid-state electronics with no moving parts. However, the evolving nature of wireless standards and smart home ecosystems means that connectivity capabilities can become outdated even while the hardware continues to function perfectly.

Durability & Reliability

Wireless radio hardware (Wi-Fi, Bluetooth, Zigbee modules) is extremely durable under normal operating conditions. These components typically outlast the useful life of the robot itself.

  • Antenna placement and design affect long-term reliability — internal antennas are protected from damage but may offer slightly less range than external designs.
  • Connectors for wired interfaces (USB, Ethernet) can wear over many plug-unplug cycles.
  • Environmental factors rarely affect wireless components, though extreme heat can reduce radio performance and battery-powered wireless modules may see range reduction as battery voltage drops.
Ongoing Maintenance

Connectivity components require minimal physical maintenance. The primary ongoing concern is software-level maintenance: keeping firmware updated, managing Wi-Fi network changes (new router, changed password), and maintaining compatibility with evolving smart home platforms.

  • When a robot has trouble connecting, the issue is almost always software or network configuration rather than hardware failure.
  • Periodically checking for firmware updates and ensuring the robot's network settings match your current infrastructure prevents most connectivity issues.
Future-Proofing Considerations

Connectivity is an area where future-proofing requires particular attention. Wireless standards evolve: Wi-Fi 6E and Wi-Fi 7 offer significant improvements over older standards, and a robot purchased with Wi-Fi 5 may not benefit from a new router upgrade.

  • The Matter smart home standard is still maturing, and early implementations may have compatibility gaps.
  • When possible, choose robots with proven support for current-generation wireless standards and manufacturers that demonstrate a commitment to ongoing software updates.
  • Robots that support multiple connectivity protocols offer more flexibility as the ecosystem evolves.

For the 5 robots in the ui44 database using Mobile App, we recommend checking the individual robot pages for manufacturer-specific maintenance guidance and support documentation. Each manufacturer has different support policies, update frequencies, and warranty terms that affect the long-term ownership experience of their connectivity technologies.

Troubleshooting & Common Issues: Mobile App

Connectivity issues can make even the most capable robot frustrating to use. Wi-Fi drops, Bluetooth pairing failures, and smart home integration problems are among the most commonly reported issues. The good news is that most connectivity problems stem from network configuration rather than robot hardware, making them resolvable without manufacturer support.

Robot frequently disconnects from Wi-Fi

Likely Causes

  • Weak signal strength is the primary cause, especially when the robot operates far from the router or behind thick walls.
  • Network congestion from too many connected devices, router firmware issues, and interference from neighboring Wi-Fi networks on the same channel can also cause intermittent drops.
  • Some robots struggle with dual-band routers that use the same SSID for both 2.4 GHz and 5 GHz bands.

Resolution

  • Check Wi-Fi signal strength at the robot's dock location and common operating areas using a phone Wi-Fi analyzer app.
  • Move the router or add a mesh Wi-Fi node to improve coverage in weak areas.
  • If your router broadcasts a single SSID for both bands, try creating separate SSIDs and connecting the robot to the 2.4 GHz network, which offers better range through walls.
  • Ensure your router firmware is current.

Robot does not appear in smart home platform

Likely Causes

  • Account linking between the robot manufacturer's app and the smart home platform may have expired or failed.
  • The robot and smart home hub may be on different network subnets or VLANs that block device discovery.
  • Some smart home integrations require the robot to be running specific firmware versions.

Resolution

  • Unlink and re-link the robot's account in the smart home platform settings.
  • Verify that the robot and smart home hub are on the same local network and subnet.
  • Check the manufacturer's compatibility notes for your specific smart home platform version.
  • Restart both the robot and the smart home hub after re-linking.

Bluetooth pairing fails repeatedly

Likely Causes

  • Previous pairing records may be corrupted on either the robot or the phone.
  • Distance or physical obstructions between the phone and robot during pairing can cause failures.
  • Some phones have aggressive Bluetooth power management that disconnects low-energy peripherals.

Resolution

  • Remove the robot from your phone's Bluetooth paired devices list and factory reset the robot's Bluetooth connection through its settings menu.
  • Keep the phone within one meter of the robot during pairing.
  • Disable battery optimization for the robot's companion app to prevent the system from killing background Bluetooth connections.

When to Contact the Manufacturer

  • Contact the manufacturer if the robot cannot maintain any Wi-Fi connection even when positioned next to the router, if the Wi-Fi or Bluetooth module appears completely non-functional, or if connectivity issues begin suddenly after a firmware update.
  • Hardware-level radio failures are rare but do occur and require professional repair.

For model-specific troubleshooting, visit the individual robot pages for the 5 robots using Mobile App. Each manufacturer provides model-specific support resources and diagnostic tools for their connectivity implementations.

What to do next

Stay in the catalog flow

This page should hand you off to the next useful comparison step, not strand you at the bottom of a long detail route.

1

Widen the layer

Browse all Connectivity

Open the full connectivity workbench when Mobile App is only one part of the decision and you need the broader market map.
2

Side-by-side check

Compare the strongest live profiles

Move from label-level research into direct robot comparison once you know which profiles are documented well enough to trust.
3

Adjacent signal

Open 3D LiDAR

This is the most common neighboring component on robots that already use Mobile App, so it is the fastest next branch if you need stack context.