STEERABLE DEPENDENT VEHICLE FOR UNMANNED AERIAL VEHICLES

Organization Name

ZIPLINE INTERNATIONAL INC.

Inventor(s)

Keenan A. Wyrobek of South San Francisco CA (US)

Brendan D. Wade of South San Francisco CA (US)

Tristan Semmelhack of South San Francisco CA (US)

Devin Williams of South San Francisco CA (US)

Gregoire Vandenbussche of South San Francisco CA (US)

Rajan Gill of South San Francisco CA (US)

Brian Boomgaard of South San Francisco CA (US)

STEERABLE DEPENDENT VEHICLE FOR UNMANNED AERIAL VEHICLES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240010336 titled 'STEERABLE DEPENDENT VEHICLE FOR UNMANNED AERIAL VEHICLES

Simplified Explanation

The patent application describes a delivery device that can deliver a product from an aerial location. The device includes a body with a payload holding region, a coupling mechanism to attach it to a primary vehicle, and a control feature to change its flight characteristics.

• The delivery device is designed to carry and deliver a product from an aerial location.
• It can be attached to a primary vehicle, such as a drone or aircraft.
• The device has a control feature that allows it to change its flight characteristics, potentially improving its maneuverability or stability.

Potential applications of this technology:

• Delivery services: The device can be used for delivering packages or goods to remote or inaccessible locations.
• Search and rescue operations: The device can deliver essential supplies or equipment to areas that are difficult to reach by ground.
• Military operations: The device can be used for aerial delivery of equipment or supplies to troops in remote or hostile areas.

Problems solved by this technology:

• Delivery to remote locations: The device allows for efficient delivery to areas that are not easily accessible by ground vehicles.
• Quick and precise delivery: The device can reach the delivery location and release the product with accuracy and speed.
• Overcoming obstacles: The aerial delivery capability of the device allows it to bypass obstacles such as traffic or natural barriers.

Benefits of this technology:

• Increased efficiency: Aerial delivery can be faster and more efficient compared to traditional ground transportation methods.
• Flexibility: The device can adapt to different flight characteristics, allowing it to navigate various environments and conditions.
• Cost-effective: Aerial delivery can potentially reduce costs associated with ground transportation and infrastructure.

Original Abstract Submitted

a delivery device to deliver a product from an aerial location includes a body defining a payload holding region. the delivery device may further include a coupling mechanism configured to couple the body to a primary vehicle. the delivery device may further include a control feature configured to change a flight characteristic of the body. a method for delivering a product may include positioning a first unmanned aerial vehicle within a threshold distance of a delivery location. the method may further include releasing a second unmanned vehicle from the first unmanned aerial vehicle once the first unmanned aerial vehicle is within the threshold distance. the method may further include causing the second unmanned vehicle to reach the delivery location. the method may further include activating a delivery mechanism to release the product from the second unmanned vehicle to deliver the product to the delivery location.