Eric H Wingfield, Age 58317 Montgomery Ave, Ann Arbor, MI 48103

2022029, Sep 22, 2022

Mar 16, 2021

17/203154

- Dearborn MI, US
Yifan Chen - Ann Arbor MI, US
Eric H. Wingfield - Ann Arbor MI, US

Ford Global Technologies, LLC - Dearborn MI

B60W 60/00
B60W 40/09
B60W 40/04
B60W 40/105
B60W 30/14
H04W 4/44

The present disclosure is directed to method for controlling an autonomous or human-driven vehicle that can include receiving, via a processor a vehicle communication indicative of a traffic flow parameter, and determining, based on the vehicle communication, a driver behavior characteristic, determining, via the processor and based on a historic driver behavior record, a driver performance characteristic, generating, via the processor, a first speed assignment and a lane assignment and associated with the vehicle and causing to transmit a first speed and lane assignment message to the vehicle. The system uses enhanced sensing technology within a connected environment to observe vehicle speeds and other vehicle patterns to ingest real-time, road network patterns of vehicle behavior, manages traffic through simulation, and sends messages to dynamic lane management controls such as signage, V2V communication, etc.

2022025, Aug 11, 2022

Feb 9, 2021

17/171106

- Dearborn MI, US
Anuja Anil Shirsat - Mountain View CA, US
Shounak Athavale - San Jose CA, US
Eric Wingfield - Ann Arbor MI, US

Ford Global Technologies, LLC - Dearborn MI

B60W 30/09
G08G 1/16
B60W 30/095
G08G 1/01
B60W 50/16
B60W 60/00

Example embodiments described in this disclosure are generally directed to systems and methods for preventing vehicular mishaps. In an example method, an object detector mounted on a building or a roadside fixture, detects an object in a detection coverage area of the object detector. The object is undetectable by a collision avoidance system of a vehicle. The object detector conveys information about the object to a supervisory computer. The information can include, for example, a location and/or a direction of travel of the object (if the object is moving). The supervisory computer evaluates the information and transmits an alert to the collision avoidance system of the vehicle, so as to prevent a collision between the vehicle and the object. In an example situation, where the object is a pedestrian, the supervisory computer may also transmit a warning alert to a personal communication device of the pedestrian.

2022023, Jul 21, 2022

Jan 19, 2021

17/152092

- Dearborn MI, US
Mohammed Fayaj navaz - Dearborn MI, US
Eric Wingfield - Ann Arbor MI, US
Archak Mittal - Canton MI, US
Xiaolin Cai - Ann Arbor MI, US
James Fishelson - Ypsilanti MI, US
Andrea Broaddus - Berkeley CA, US
Jon Coleman - Saline MI, US
Amit Bhagwan - Dearborn MI, US
Dhanush Harihar - Novi MI, US

Ford Global Technologies, LLC - Dearborn MI

G06Q 10/06
G06N 20/00
G07C 5/00
G06Q 10/08
G06Q 10/02
G05D 1/02

Robot-assisted package delivery with integrated curbside parking monitoring and curb operations optimization is disclosed herein. An example method includes dispatching a delivery vehicle and delivery robot to a delivery location, the delivery location including a parking location for the delivery vehicle that allows for deployment of the delivery robot on a delivery mission, determining occupancy of the parking location, the delivery vehicle parking at the parking location when the parking location is unoccupied, the delivery robot being deployed upon parking of the delivery vehicle, and instructing the delivery vehicle to remain parked during the delivery mission or to leave the parking location and return at later point in time based on an estimated time of arrival of the delivery robot after the delivery mission.

2022020, Jun 30, 2022

Dec 28, 2020

17/135227

- Dearborn MI, US
Abhishek Sharma - Troy MI, US
Laura Elliott - Dearborn MI, US
Raina Kumar - Dearborn MI, US
Gwen Hickey - Dearborn MI, US
Jash Patel - Dearborn MI, US
Angela Ayers - Bloomfield Hills MI, US
Eric H. Wingfield - Ann Arbor MI, US

Ford Global Technologies, LLC - Dearborn MI

B65F 5/00
B25J 11/00
B25J 9/16
G06Q 50/26

The disclosure generally pertains to systems and methods for trash collection management. In an example embodiment, a dumpster monitoring apparatus may determine that an amount of garbage in a dumpster exceeds a threshold level (such as, for example, above a full-level marked on the dumpster). If the garbage exceeds the threshold level, the dumpster monitoring apparatus automatically transmits a request to a dumpster management apparatus to dispatch a garbage truck. In an example scenario, the dumpster monitoring apparatus may further determine that a current location of the dumpster is stationed is inaccessible to the garbage truck. Consequently, the dumpster monitoring apparatus may automatically transmit a request to a robot vehicle (such as robotic forklift) to move the dumpster from the current location to a new location that is accessible to the garbage truck. The dumpster monitoring apparatus may then inform the dumpster management apparatus of the new location.

2021027, Sep 2, 2021

Feb 28, 2020

16/805090

- Dearborn MI, US
Yifan Chen - Ann Arbor MI, US
James Fishelson - Ypsilanti MI, US
Xiaolin Cai - Ann Arbor MI, US
Archak Mittal - Dearborn MI, US
Andrea Broaddus - Berkeley CA, US
Seema Jain - Novi MI, US
Eric H. Wingfield - Ann Arbor MI, US

Ford Global Technologies, LLC - Dearborn MI

G06Q 10/06
G06Q 10/04
G06F 30/20

The present disclosure relates to methods and systems for performing a cost-benefit analysis of a microtransit service, including a method utilizing both transportation simulation and experimental design in connection with the cost-benefit analysis.

2021011, Apr 15, 2021

Oct 14, 2019

16/601004

- Dearborn MI, US
Amanuel Zeryihun - Pinole CA, US
Eric H. Wingfield - Ann Arbor MI, US
Abhishek Sharma - Ann Arbor MI, US
James Fishelson - Ypsilanti MI, US
Yifan Chen - Ann Arbor MI, US

Ford Global Technologies, LLC - Dearborn MI

H04W 12/06
H04W 12/00
H04L 9/08
H04L 9/06
H04W 4/40

A system comprises a computer including a processor and a memory. The memory storing instructions executable by the processor to transmit an authentication request to a vehicle computer, receive, from the vehicle computer, a response including data proving that the vehicle computer includes confidential information, wherein the data does not convey the confidential information, determine whether the response is valid based on the authentication request, and transmit a warning to the vehicle computer when the response is not valid.

2021010, Apr 8, 2021

Oct 8, 2019

16/595791

- Dearborn MI, US
Amanuel Zeryihun - Pinole CA, US
James Fishelson - Ypsilanti MI, US
Eric H. Wingfield - Ann Arbor MI, US
Yifan Chen - Ann Arbor MI, US
Abhishek Sharma - Novi MI, US

Ford Global Technologies, LLC - Dearborn MI

G06Q 50/30
B60R 25/20
G06Q 20/36
G06Q 20/08

A usage rule specifies a number of tokens to access a vehicle. Authorization of a request to access the vehicle is based on receiving the number of tokens specified by the usage rule. The request is stored to an electronic ledger. Actuation of the vehicle is based on the request being authorized. An allocation rule specifies the number of tokens allocated to each of an entity and the vehicle based on the request. Allocation of tokens to the entity and the vehicle is based on the allocation rule.

2021005, Feb 25, 2021

Aug 23, 2019

16/549330

- Dearborn MI, US
YIFAN CHEN - Ann Arbor MI, US
ABHISHEK SHARMA - Ann Arbor MI, US
ERIC H. WINGFIELD - Ann Arbor MI, US
JAMES FISHELSON - Ypsilanti MI, US

Ford Global Technologies, LLC - Dearborn MI

G06Q 20/38
G06F 16/27
G06F 16/23

A blockchain block generated by one or more blockchain nodes when the one or more blockchain nodes are only connected to a local area network is received, and the blockchain block is synchronized with a blockchain. After determining that a backhaul network device is not connected to the one or more blockchain nodes and then determining that the backhaul network device is connected to the one or more blockchain nodes, the blockchain is transmitted to the one or more blockchain nodes via the backhaul network device upon determining that the backhaul network device is connected to the one or more blockchain nodes.