期刊,Robotics & Machine Learning Daily News 2024年卷Mar.7期_国家学术搜索

期刊信息/Journal information

Robotics & Machine Learning Daily News

NewsRx

主办单位：NewsRx

Robotics & Machine Learning Daily News/Journal Robotics & Machine Learning Daily News

正式出版

收录年代

Patent Issued for Systems, apparatuses, and methods for robotic learning and exe cution of skills including navigation and manipulation functions (USPTO 11904470 )

148-152页

查看更多>>摘要：By a News Reporter-Staff News Editor at Robotics & Machine Learning Daily News Daily News-From Alexandria, Virginia, NewsRx jour nalists report that a patent by the inventors Chu, Vivian Yaw-Wen (Austin, TX, U S), Gutierrez, Reymundo (Round Rock, TX, US), Hutson, Lauren (Austin, TX, US), L i, Shuai (Sammamish, WA, US), Mathis, Frank (Austin, TX, US), Nellithimaru, Anja na (Austin, TX, US), Thomaz, Andrea Lockerd (Austin, TX, US), Worsnop, Peter (Be thesda, MD, US), filed on August 8, 2023, was published online on February 20, 2 024. The patent's assignee for patent number 11904470 is Diligent Robotics Inc. (Aust in, Texas, United States). News editors obtained the following quote from the background information suppli ed by the inventors: "Robots can be used to perform and automate a variety of ta sks. Robots can perform tasks by moving through an environment, such as an offic e building or a hospital. Robots can be equipped with wheels, tracks, or other m obile components that enable them to move autonomously around an environment. Ro bots that do not have an arm or other manipulator, however, cannot manipulate ob jects in the environment. Therefore, these robots are limited in their ability t o perform tasks, e.g., such robots may not be able to pick up and deliver an obj ect without a human being present to manipulate the object at a pick up or deliv ery point.

原文链接:

NETL
NSTL

Patent Issued for Systems and methods for optimizing asset maintenance protocols by predicting vegetation-driven outages (USPTO 11908186)

152-156页

查看更多>>摘要：By a News Reporter-Staff News Editor at Robotics & Machine Learning Daily News Daily News-According to news reporting originatin g from Alexandria, Virginia, by NewsRx journalists, a patent by the inventors Be llemans, Nicolas Charles Michel (Brussels, BE), Carter, Kelsey Elwood (New York, NY, US), Chu, Derek (Maynard, MA, US), Fernandez, Alfonso Encinas (New York, NY, US), Gascon, Charlie (New York, NY, US), Zhang, Liangliang (Houston, TX, US), filed on March 15, 2023, was published online on February 20, 2024. The assignee for this patent, patent number 11908186, is Mckinsey & Company Inc. (New York, New York, United States). Reporters obtained the following quote from the background information supplied by the inventors: "Utility poles carrying power lines and pole top devices (e.g., "assets") are ubiquitous in almost every modern city and the surrounding areas . In many such areas, these utility poles stand proximate to vegetation (e.g., t rees) that is similar in height to the poles themselves, thereby allowing the ve getation to grow over and/or around the power lines and pole top devices carried on the utility poles. During storms with driving wind and/or heavy rain, or sim ply as result of other natural consequences (e.g., stacking stressors, termites, etc.), the vegetation near the utility poles can contact and damage the utility poles themselves, the power lines, and/or the pole top devices. Consequently, p roximate vegetation is a primary concern of utility companies, as it creates a s ubstantial risk of vegetation-driven outages that can leave thousands without po wer for extended periods of time.

原文链接:

NETL
NSTL

Patent Issued for Systems and methods for integrating web platforms with mobile device operations (USPTO 11907919)

156-161页

查看更多>>摘要：By a News Reporter-Staff News Editor at Robotics & Machine Learning Daily News Daily News-From Alexandria, Virginia, NewsRx jour nalists report that a patent by the inventors Bowers, Urich T. (Brideville, PA, US), Ley, Mike (Moon Township, PA, US), McDade, Mecal (New Alexandria, PA, US), Tkach, Todd (Wexford, PA, US), filed on February 1, 2021, was published online o n February 20, 2024. The patent's assignee for patent number 11907919 is The PNC Financial Services G roup Inc. (Pittsburgh, Pennsylvania, United States). News editors obtained the following quote from the background information suppli ed by the inventors: "Financial service providers are rapidly expanding the use of mobile services and mobile applications. Currently, most financial service pr oviders provide mobile banking services which allow customers to perform basic f unctions and transactions remotely, for example, by using an application on a mo bile device such as a cell phone or a tablet having an online web interface. Mob ile banking allows customers to manage their money without visiting a physical b rick and mortar branch bank location. Customers may check account balances, pay bills, transfer funds, send money to others, deposit checks, receive customer su pport, apply for loans, receive alerts, apply for credit cards, manage benefits, manage credit/debit cards, review transactions, open new accounts, and perform many other banking services on a mobile application on a mobile device without t ravelling to a physical location. The financial services providers provide these functions to customers electronically via an application without the need for i n-person teller services.

原文链接:

NETL
NSTL

A biomimetic fruit fly robot for studying the neuromechanics of legged locomotio n

161-162页

查看更多>>摘要：By a News Reporter-Staff News Editor at Robotics & Machine Learning Daily News Daily News-According to news reporting based on a preprint abstract, our journalists obtained the following quote sourced from bi orxiv.org: "For decades, the field of biologically inspired robotics has leveraged insights from animal locomotion to improve the walking ability of legged robots. Recentl y, \"biomimetic\" robots hav e been developed to model how specific animals walk. By prioritizing biological accuracy to the target organism rather than the application of general principle s from biology, these robots can be used to develop detailed biological hypothes es for animal experiments, ultimately improving our understanding of the biologi cal control of legs while improving technical solutions. "In this work, we report the development and validation of the robot Drosophibot II, a meso-scale robotic model of an adult fruit fly, Drosophila melanogaster.

原文链接:

NETL
NSTL