Pudu SWIFTBOT Delivery Robot with Laser Projection, Contactless Delivery, Autonomous Elevator-Riding, Automatic Electric Door, in White

PUDU SwiftBot

All-powerful Delivery Robot
SwiftBot is an indoor robot that supports SLAM positioning and navigation solutions integrating both Lidar and visual positioning. Featured with new interactive features such as cabin door autoopen/close, voice interaction, laser projector, and peak hours algorithms, it can be efficiently, safely, conveniently, and flexibly used in various scenarios. In addition, SwiftBot has a wide range of expansion interfaces for 4G, Wi-Fi, Bluetooth, Type-C USB, and other communication methods and can be connected with peripherals such as code scanners and elevator controls, greatly enhancing the user experience.

SwiftBot comes with various modes, including Food Delivery Mode, Delivery Mode, Cruise Mode, Guiding Mode, Birthday Mode, and Interactive Mode to cater to the needs of different scenarios.

Redefining Human-robot Relationship

Powered by industry-leading collision sensing technology and Pudu-developed advanced algorithm, SwiftBot aims to be the most intelligent and secure commercial delivery robot. SwiftBot can detect passers-by and initiatively make way for them in a timely manner. Even in a highly dynamic and complex environment, SwiftBot can conduct and complete its tasks with ease and surprise you with its multifunctionality and high reliability.

Realtime Visualized Status

Every step of SwiftBot is visible and understandable

Omnidirectional Perception Capability

Comprehensive utilization of sensing technology to secure safe deliveries

Initiative Make-way for Pedestrian

Improving efficiency and performance in rush hour

5-S Delivery Expert

• Swift: Reduce 50% human-robot road congestion and increase 30% machine running speed in restaurant environments
• Stable: Enhance 20% delivery stability powered by hybrid technology, combining automotive-grade adaptive variable suspension and stabilization algorithm
• Safe: Human detection technology ensures the safety of special groups such as elders and children
• Smart: Multimodal interaction provides more intelligent and better experience for customers
• Sociable: Being courteous and friendly, SwiftBot redefines the relationship between people & robots

Automatic Electric Door

Securing safety, hygiene and privacy

• Innovative Projection Interaction
• One Step Door Control
• Collision Avoidance Alert
• Machine Status Indicators
• Pattern Interaction in Special Modes

IoT Functionality

Support 4G/LORA/Wi-Fi/Bluetooth/RFID/Type-C

Easy function extension and application integration

Unimpeded In-building Delivery

Safely and automatically take elevators and pass through E-gates

Mission at-1-call

Flexible robot calling and task-assigning

Multiple Serving Modes

• Food Delivery Mode
• Delivery Mode
• Cruise Mode
• Guiding Mode
• Birthday Mode
• Interaction Mode

Automatic Charging

Intelligent auto-charging for 24/7 services

Two Models, Different Scenarios

• Standard with Door
• Doorless

1. Do all SwiftBot have multiple compartments?
There are 2 types, one that have compartments, the other does not.

2. Can the Swiftbot also be charged when the key is on the OFF position?
Yes

3. How long is the charging time?
About 4.5 Hour

4. What is the maximum height of passing over obstacles and the width of passing the gap?
The maximum height of passing over obstacles is 7 mm (0.28 in)
The width of passing the gap is: 35 mm (1.38 in)

5. What are the current functional modes of Swiftbot?
There are currently 6 functional modes in total, food delivery, Guiding, interaction, delivery, cruise, and birthday.

 6. In what scenarios can the projection function be triggered?
Go straight, turn left/right, open the door with foot, robot positioning lost, win a lottery, birthday, no network connection, abnormality, etc.

7. Does Swiftbot support passing through turnstile flap barriers via Bluetooth?
Yes

8. Are the trays of Swiftbot adjustable? How many levels are adjustable?
There are 3 positions for trays, and you can choose how many layers of trays to install.

9. Does Swiftbot support 4G watch cross-floor calls?
Not supported at the moment

10. Does Swiftbot support taking elevators?
Yes

11. Can you modify the Swiftbot expressions while it’s in sleep mode?
No

12. Can Swiftbot take the shortest route for food delivery instead of sequence? How do we set it up?
Main interface->food delivery interface->⚙ pattern on the right ->order of delivery

13. How do you check the fault reported by the robot on the cloud platform?
Enter the cloud platform, select the [Log Center ->Robot Logs and input the robot’s mac address to query.

14. What prerequisites are needed to be met for the installation tool to be able to connect to the robot IP normally?
(1) The robot and PC must be in the same network (connected to the same network)
(2) The debugging switch on the robot must be turned on

15. What is the suitable distance of between two markers for different ceiling heights?
 When the floor height is 2-2.5m (6.56–8.20 ft), the distance of markers should be 0.8m (2.62 ft);

When the floor height is 2.5-4m (8.20–13.12 ft), the distance of markers should be 1.2m (3.94 ft);

When the floor height is 4-5m (13.12–16.40 ft), the distance of markers should be 1.5m (4.92 ft);

When the floor height is 5-5.5m (16.40–18.04 ft), the distance of markers should be 2m (6.56 ft);

When the floor height is 6.5-8m (21.33–26.25 ft), the distance of markers should be 2.5m (8.20 ft).

16. What is free mode and waiting mode? What are their rules for these settings?
In the free mode, all docking points are pick up points and there are no temporary parking points. In the waiting mode, there are pick up points and temporary stopping points; these points are based on priority, In the installation tool element list, the pick up points that raking first in the same group have higher priority, and the robot will first return those points with higher priority;

17. What should you pay attention to when setting the destination (dining table) during the installation and deployment process?
If the path is wide enough, it is recommended that each dining table set an arrival point. If some tables cannot set an arrival point due to insufficient path width, the arrival point needs to be set at the nearest location.

18. What rules should be followed when setting up a cruise route?
(1) The first and last nodes of the cruise path must be consistent;
(2) Nodes must be added in sequence according to the cruise path node order;
(3) Each node in the path is separated by commas.

19. What should you pay attention to when adding a new arrival point near a two-way route?

(1) The dining table cannot be set in the middle of the double-row path, but needs to be set on the edge of the double-row path after sampling;

(2) Try to keep the dining table outside the node range.

20.  How to set the speed limit for the robot on a certain route?
Select the route in the installer(pc), and set the speed limit on the property bar.