Autonomous Obstacle Avoidance Restaurant Food Delivery Robot / Robot Waiter

Practical significance: Change the standard service mode of restaurants, undertake heavy, dirty, mechanical, repetitive, and irregular work, and create new restaurant service projects and profit growth points; Complete multi-point delivery tasks in factory and other scenarios; Automatic recharge, autonomous navigation, autonomous obstacle avoidance, slow delivery, support for multiple languages, and continuous upgrades.

1. Multi point delivery

Usage scenario: Robots can be on standby at standby points (such as food outlets, kitchens, etc.), and personnel can assign robots to perform multi-point delivery by operating the robot screen. A single delivery can be made to up to ten locations simultaneously. Support setting different times to go to different standby points for standby; Support setting up multiple standby points; Support mid way modification of delivery tasks, return to standby points, return to charging stations, etc; The pick-up reminder supports customization.

2. Parade Exhibition

Usage scenario: Robots need to patrol and distribute snacks in restaurants; Deliver goods along a fixed route in the factory; Parade and deliver supplies, drinks, and beverages at the venue; Cruising promotion in supermarkets.

Usage process: Users can specify the robot's patrol route, patrol time, patrol announcement language, etc. The robot will autonomously patrol according to the set route. During the patrol, it supports pausing the robot, voice interaction, and asking for directions. Support recognition of people's speech announcements, etc. Support setting different routes; Support user-defined broadcast language; Support setting fixed-point broadcasting, interval broadcasting, and person recognition broadcasting.

3. Reception

Usage scenario: Welcome and reception at the restaurant entrance, etc.

Usage process: Users can specify the reception location of the robot, and the robot will go to the reception location to welcome guests. When the robot sees someone coming, it will proactively greet them. Users can interact with robots through screens or voice commands, allowing them to lead and guide the way. Support setting up different reception points; Support user-defined broadcast language; Support user-defined guidance routes.

4. Blessing song

Usage scenario: When there is a guest's birthday or other celebration event in the restaurant scene, gifts can be placed on the robot, and then a blessing song can be played to have the robot deliver the gift to the guest.

5. Help with pick-up and delivery

Usage scenario: Users can submit delivery orders through mini programs or apps. This function can be used in restaurants to complete the return work; This function can be used to complete multi-point delivery in factories, buildings, and hospitals.

Usage process: Users can submit multi-point delivery orders through the help pick-up and delivery mini program or the Luoqi APP, and the robot will independently complete multi-point delivery. Users can view order details in the mini program or app. Support designated robot delivery; Support system intelligent allocation of robot delivery; Supports up to ten delivery points; Support notifying users of their mobile phones upon arrival at the designated location; Support notification of arrival points via landline or speaker.

6. Ask for directions and lead

Voice triggered guidance: Guests can say words to the robot, such as "Take me to room 0808", "Where is room 0808", "I want to go to room 0808", etc., and ask the robot to guide them. After completing the guidance, the robot will return to the starting point.

Manual triggering of wayfinding guidance: Guests can manually input or select a location and have the robot lead them to the room. After the guidance of asking for directions is completed, the robot supports asking for directions again on the way back.

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