News Article | December 5, 2016
Medical Robots Market is growing steadily on account of the rising number old people, neurological related diseases, such as stroke, etc. and is gaining prominence among both adult and aged population. Rising adoption of medical robots among the population along with the growing focus on positive outcomes of procedures has led to the growth of medical robot market. Complete report on Medical Robotics Market spread across 156 pages providing 10 company profiles and 120 figures is available at http://www.reportsnreports.com/reports/774174-global-medical-robotics-market-surgical-robots-rehabilitation-robots-telepresence-robots-analysis-by-region-by-country-2016-2021-by-robot-surgical-robots-rehabilitation-robots-telepresence-robots-ot-na-japan.html . Strategic Recommendations listed in this report are Increase Penetration in Emerging Markets and R&D Scope to Be Increased. Among the segments, the market is expected to be driven by Surgical Robots on account of technological improvement leading to higher success rates among the patients. While developed regions will continue to dominate the market in terms of revenue, emerging nations are expected to respond to the market optimistically due to the developing healthcare infrastructure and rising focus on healthcare among the growing middle class population. According to research report, Global Medical Robotics Market (Surgical Robots, Rehabilitation Robots, Telepresence Robots): Analysis By Region, By Country (2016-2021) - (By Robot: Surgical Robots, Rehabilitation Robots, Telepresence Robots, Others; By Region-North America, Europe, APAC, ROW; By Country - U.S., Canada, UK, Germany, Italy, India, China, Japan), Global Medical Robot Market is forecasted to grow at a CAGR of 21.43% during 2016 - 2021F, on account of rising adoption among the population. North America region remains the major market among all the regions. In the forecast period, APAC region will witness strong growth driven by the countries such as India and China. Order a Copy of Report at http://www.reportsnreports.com/purchase.aspx?name=774174. Another related report is Telepresence Robots Market Shares, Strategies, and Forecasts, Worldwide, 2016 to 2022 http://www.reportsnreports.com/reports/518953-telepresence-robots-market-shares-strategies-and-forecasts-worldwide-2016-to-2022.html. Telepresence robot device markets at $825 million in 2015 are anticipated to reach $7 billion by 2022 as next generation robotic devices, systems, and instruments are introduced to manage remote presence. The robotic platform will be extended to include grippers and cameras of all types, sensors and sophisticated navigation software. The complete report provides a comprehensive analysis including units sold, market value, forecasts, as well as a detailed competitive market shares and analysis of major players' success, challenges, and strategies in each segment and sub-segment. The report covers markets for security, law enforcement, manufacturing, healthcare, education, and business telepresence. Market Participants are Anybots, Dimaa Network Services LTD (DNS), DJI, Double Robotics, GlobalMed, iRobot, Inbot Technology PadBot, Intouch, Mantaro, Orbis Robotics, QinetiQ, Rbot, ReconRobotics, Revolve Robotics, Robosoft, Robotex, Suitable Technologies, TechnoRobot, VGo and Vsee. Comprehensive table of Content is available at http://www.reportsnreports.com/reports/518953-telepresence-robots-market-shares-strategies-and-forecasts-worldwide-2016-to-2022.html . Explore other reports on medical devices market at http://www.reportsnreports.com/market-research/medical-devices/ . ReportsnReports.com is your single source for all market research needs. Our database includes 500,000+ market research reports from over 100+ leading global publishers & in-depth market research studies of over 5000 micro markets. With comprehensive information about the publishers and the industries for which they publish market research reports, we help you in your purchase decision by mapping your information needs with our huge collection of reports. Connect With Us on:
News Article | October 31, 2016
MarketStudyReport.com adds “Global Public Relation Robots Market 2016-2020” new report to its research database. The report spread across 56 pages with table and figures in it. The Research analysts forecast the global public relation robots market to grow at a CAGR of 26% during the period 2016-2020. Robotics, which was a traditional part of the industry sector, is making its mark in the service sector, such as in hotels, hospitals, warehouses, restaurants, and departmental stores. Recent developments in AI technologies, assistive technologies, and machine learning algorithms have helped vendors to design public relation robots. Public relation robots are used as a replacement for handling customers in sectors, such as hotel and restaurant, mobile guidance, information areas, and marketing. Browse full table of contents and data tables at https://www.marketstudyreport.com/reports/global-public-relation-robots-market-2016-2020/ Covered in this report The report covers the present scenario and the growth prospects of the global public relation robots market for 2016-2020. To calculate market size, we have considered the revenue generated from sales and aftermarket services of public relation robots (service robots). It includes the revenue generated by the robots deployed to hotels, restaurant chains, and departmental store. The market is divided into the following segments based on geography: - Americas - APAC - EMEA The Research report, Global Public Relation Robots Market 2016-2020, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market. Key vendors - Rethink Robotics - Robosoft - Savioke - Anybot - Hajime Research Institute Other prominent vendors - Alphabet - Honda Robotics - Toyota - Boston Dynamics - Softbank - Ams - Aldebaran - Avatarmind - Dyson - Kawada Robotics - Samsung - WowWee Holdings - Mekka Robotics Market driver - Need to improve productivity - For a full, detailed list, view our report Market challenge - End-users' reluctance to adapt to changes in technology - For a full, detailed list, view our report Market trend - Growing adoption of humanoids in hotels - For a full, detailed list, view our report Key questions answered in this report - What will the market size be in 2020 and what will the growth rate be? - What are the key market trends? - What is driving this market? - What are the challenges to market growth? - Who are the key vendors in this market space? - What are the market opportunities and threats faced by the key vendors? - What are the strengths and weaknesses of the key vendors? To receive personalized assistance write to us @ [email protected] with the report title in the subject line along with your questions or call us at +1 866-764-2150
News Article | April 27, 2016
Abstract: Bio-inspired robotics is a rapidly advancing field solving engineering problems by optimising mechanisms found in nature. The Bio-inspired Robotics Summit will explore this rapidly emerging field and its applications in industrial automation, manufacturing, healthcare, architecture and more. RE標ORK are pleased to announce their first robotics-focused summit taking place on 29-30 November at the Umweltforum, Berlin. Bio-inspired robotics is a rapidly advancing field solving engineering problems by optimising mechanisms found in nature. Three main areas of focus are biosensors, bioactuators and biomaterials, with applications ranging from nanotechnology, industrial automation and manufacturing, to healthcare and architectural design. Soft robotics and swarm intelligence are two branches within the field that are growing exponentially. Why Attend The RE標ORK Bio-inspired Robotics Summit is a unique opportunity to meet 200+ influential manufacturers, world-leading biomimetics researchers, entrepreneurs and software engineers. Discover how bio-inspired robotics can impact your business and network with innovators in the field. Over the course of the 2 days you will hear keynote presentations and panel discussions, explore the startup showcase area and connect with international peers. The event will discuss topics ranging from swarm robotics and collective intelligence, to soft robotics, bionics, and nanotechnology. Previous robotics events attendees include: Rethink Robotics, Microsoft, Amazon Robotics, Qualcomm Ventures, Reach Robotics, Q-Bot, Terrabotics, EcoMachines Ventures and Jibo. Speakers Over 25 speakers from multinational corporations, world-renowned academic institutions and cutting edge startups will share their technological advances and innovative applications with the audience. Confirmed speakers include: Elias Knubben, Head of Bionic Projects, FESTO Mirko Kovac, Director, Aerial Robotics Lab, Imperial College London Barbara Mazzolai, Director, Centre for Micro Biorobotics, IIT Cecilia Laschi, Director, Robosoft Consortium Jun Shintake, PhD Researcher, EPFL Tickets & Registration Super Early Bird tickets are available until 22 July 2016. For further information and to register at a discounted rate, go to: re-work.co/events/bio-inspired-robotics-summit-berlin-2016 Startups, Students, Academics and Groups can receive further discounts - email for more information. RE標ORK will be hosting a free Meetup event in London on 12 July: https://re-work.co/workshops/bio-inspired-robotics-meetup-2016 About REWORK X LTD RE標ORK is an all-female run events organising company that brings together breakthrough technology, cutting-edge science and entrepreneurship shaping the future of business and society. At each event, we showcase the opportunities of exponentially accelerating technologies to positively disrupt industry and society. For more information, view the full line-up of events here: www.re-work.co For more information, please click If you have a comment, please us. Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
Granata C.,Robosoft |
Bidaud P.,University Pierre and Marie Curie |
Buendia A.,SpirOps Headquarters
Field Robotics - Proceedings of the 14th International Conference on Climbing and Walking Robots and the Support Technologies for Mobile Machines, CLAWAR 2011 | Year: 2012
In this study we propose an innovative decision making engine for interactive person following for a mobile social robot. The developed engine combines 1. A Strategy controller that selects the strategy to apply 2. A Multiple-Objective system that provides to the robot the way to perform this strategy. We show the performances of this system by two sets of experiments (in simulation environment): The first one is based only on the observed data in the second one we predict the state of the user with a Kalman filter and the state of the robot with a predictive model. We demonstrate that the proposed reasoning system is able to regulate the robot behavior in complex and critical situations. The suggested predictors improve the system performances considerably. © 2012 by World Scientific Publishing Co. Pte. Ltd.
Granata C.,University Pierre and Marie Curie |
Chetouani M.,University Pierre and Marie Curie |
Tapus A.,ENSTA ParisTech |
Bidaud P.,University Pierre and Marie Curie |
Proceedings - IEEE International Workshop on Robot and Human Interactive Communication | Year: 2010
Human-robot interaction (HRI) takes place especially through interfaces. The design of such interfaces is a very delicate and crucial phase because it influences the robot accessibility and usability by the user. In this paper, we describe and analyze the results of 2 tests conducted so as to understand some of the optimal features that should characterize the robot voice and graphical-based user interfaces. Our test platform is an assistive robot developed for the elderly with mild cognitive impairments. Therefore, the user interfaces must be clear and simple. The ambiguities must be eliminated so as to facilitate the use of the robot and hence not to discourage the elderly population to use new technologies. © 2010 IEEE.
Doisy G.,Ben - Gurion University of the Negev |
Jevtic A.,Robosoft |
Bodiroza S.,Humboldt University of Berlin
ACM/IEEE International Conference on Human-Robot Interaction | Year: 2013
For a human-robot interaction to take place, a robot needs to perceive humans. The space where a robot can perceive humans is restrained by the limitations of robot's sensors. These restrictions can be circumvented by the use of external sensors, like in intelligent environments; otherwise humans have to ensure that they can be perceived. With the robotic platform presented here, the roles are reversed and the robot autonomously ensures that the human is within the area perceived by the robot. This is achieved by a combination of hardware and algorithms capable of autonomously tracking the person, estimating their position and following them, while recognizing their gestures and navigating through environment. © 2013 IEEE.
Lucet E.,Robosoft |
Grand C.,CNRS Institute of Robotics and Intelligent Systems |
Bidaud P.,CNRS Institute of Robotics and Intelligent Systems
Advances in Intelligent and Soft Computing | Year: 2010
The subject of this paper is the design and implementation of a robust dynamic feedback controller, based on the dynamic model of the four-wheel skidsteering RobuFAST A robot, undergoing high-speed turns. The control inputs are respectively the linear velocity and the yaw angle. The main objective of this paper is to formulate a sliding mode controller, robust enough to obviate the knowledge of the forces within the wheel-soil interaction, in the presence of sliding phenomena and ground-level fluctuations. Finally, experiments are conduced on a slippery ground to ascertain the efficiency of the control law. © 2010 Springer-Verlag Berlin Heidelberg.
Lucet E.,Robosoft |
Lenain R.,IRSTEA |
Grand C.,CNRS Institute of Robotics and Intelligent Systems
Control Engineering Practice | Year: 2015
This paper deals with accuracy and reliability for the path tracking control of a four wheel mobile robot with a double-steering system when moving at high dynamics on a slippery surface. An extended kinematic model of the robot is developed considering the effects of wheel-ground skidding. This bicycle type model is augmented to form a dynamic model that considers an actuation of the four wheels. Based on the extended kinematic model, an adaptive and predictive controller for the path tracking is developed to drive the wheels front and rear steering angles. The resulting control law is combined with a stabilization algorithm of the yaw motion which modulates the actuation torque of each four wheels, on the basis of the robot dynamic model. The global control architecture is experimentally evaluated on a wet grass slippery terrain, with speeds up to 7. m/s. Experimental results demonstrate enhancement of tracking performances in terms of stability and accuracy relative to the kinematic control. Highlights: •Extended kinematic and dynamic models of a double-steered vehicle are proposed.•A new adaptation dynamic sideslip observer considers the lateral slope.•An adaptive and predictive double steering controller is developed.•A stabilizer of the yaw motion modulates the actuation torque of each four wheels.•Experiments are performed on a wet grass slippery terrain, with speeds up to 7m/s. © 2015 Elsevier Ltd.
Robosoft | Date: 2010-12-07
Scientific apparatus and instruments other than medical, namely, laboratory robot, encoders, cameras, calculators, accumulators, electric connectors, antennas, antennas for wireless communication apparatus, apparatus for transmission of communication, electric motor control for industrial robots, electric or electronic navigational instruments, electronic data relays for sensors, motion detectors, electronic transmitters and receivers for use in determining the position of industrial robots; surveying apparatus and instruments, namely, gyroscopes, global positioning system, GPS data loggers for recording trips and classifying them, navigating apparatus for vehicles, radar detectors, sonars and ultrasonic sensors; optical apparatus and instruments, namely, laser object detectors for use on vehicles, industrial robots, laser measuring systems and radar detectors; measuring apparatus and instruments, namely, testers for voltage, amperage, continuity, acceleration sensors, accelerometers, laser measuring systems, ultrasonic sensors, ultrasonic detectors, speedometers, echo sounding devices; teaching apparatus and instruments, namely, laboratory robots for museum visits, robots for personal or hobby use; computer hardware for robots; software for robots, namely, recorded software programs for use in operating industrial robots; computer software development tools and computer software for application and database integration, software programmable microprocessors, telecommunication hardware and software for monitoring and alerting remote sensor via Internet.
Robosoft | Date: 2012-03-20
Industrial robots. Computer material and information processing equipment, namely, computer hardware and peripherals; computers; memory cards; microprocessors; computer software programs, namely, recorded software programs for use in operating industrial robots; robots for assisting a person, namely, robots for personal, educational and hobby use. Vehicles, namely, land vehicles, motor cars for transport on land, remotely controlled land vehicles, robotic transport vehicles; autopilot terrestrial vehicles, namely, autopilot controlled land vehicles and automatic guided vehicles; electric vehicles, namely, buses for interactive rides; vehicles for the physically handicapped and those with reduced mobility, and cleaning vehicles for transport, namely, glass roof and window cleaning land vehicles.