Processing

Please wait...

Settings

Settings

Goto Application

Offices all Languages en Stemming true Single Family Member true

Save query

A private query is only visible to you when you are logged-in and can not be used in RSS feeds

Query Tree

Refine Options

Offices
All
Specify the language of your search keywords
Stemming reduces inflected words to their stem or root form.
For example the words fishing, fished,fish, and fisher are reduced to the root word,fish,
so a search for fisher returns all the different variations
Returns only one member of a family of patents

Full Query

IC:B25J9/00 AND EN_ALLTXT:(coronavirus OR coronaviruses OR coronaviridae OR coronavirinae OR orthocoronavirus OR orthocoronaviruses OR orthocoronaviridae OR orthocoronavirinae OR betacoronavirus OR betacoronaviruses OR betacoronaviridae OR betacoronavirinae OR sarbecovirus OR sarbecoviruses OR sarbecoviridae OR sarbecovirinae OR "severe acute respiratory syndrome" OR sars OR "2019 ncov" OR covid)

Side-by-side view shortcuts

General
Go to Search input
CTRL + SHIFT +
Go to Results (selected record)
CTRL + SHIFT +
Go to Detail (selected tab)
CTRL + SHIFT +
Go to Next page
CTRL +
Go to Previous page
CTRL +
Results (First, do 'Go to Results')
Go to Next record / image
/
Go to Previous record / image
/
Scroll Up
Page Up
Scroll Down
Page Down
Scroll to Top
CTRL + Home
Scroll to Bottom
CTRL + End
Detail (First, do 'Go to Detail')
Go to Next tab
Go to Previous tab

Analysis

1.WO/2009/117989SURGERY ASSISTANCE SYSTEM FOR GUIDING A SURGICAL INSTRUMENT
WO 01.10.2009
Int.Class B25J 9/16
BPERFORMING OPERATIONS; TRANSPORTING
25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; HANDLES FOR HAND IMPLEMENTS; WORKSHOP EQUIPMENT; MANIPULATORS
JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
9Programme-controlled manipulators
16Programme controls
Appl.No PCT/DE2009/000387 Applicant AKTORMED GMBH Inventor GEIGER, Robert
The invention relates to a surgery assistance system for guiding a surgical instrument, especially a camera system (2) having an endoscope (3) depending on the manual actuation of at least one function key (T1 – T6) of an operating element (BE). Advantageously, the angle of inclination (w) of the surgical instrument (3) is determined with respect to the spatial axis (z) of the Cartesian patent coordinate system (PKS) extending through the trocar point (T) and the angle of inclination (w) so determined is compared with a predetermined set angle of inclination (ws). When the determined angle of inclination (w) exceeds the set angle of inclination (ws), the tip (S) of the surgical instrument (3) is guided on a semi-spherical surface (TK) which concentrically surrounds the trocar point (T) and which receives the tip (S) of the instrument (3), and when the determined angle of inclination (w) is below the set angle of inclination (ws), the tip (S) of the surgical instrument (3) is guided along a tangent (TG) which extends through the tip (S) of the instrument (3) and which rests on the semi-spherical surface (TK).
2.WO/2017/137558METHOD AND ARRANGEMENT FOR THE HIGHLY ACCURATE POSITIONING OF A ROBOT-GUIDED INTERACTION APPARATUS BY MEANS OF RADAR
WO 17.08.2017
Int.Class G01S 13/88
GPHYSICS
01MEASURING; TESTING
SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
13Systems using the reflection or reradiation of radio waves, e.g. radar systems; Analogous systems using reflection or reradiation of waves whose nature or wavelength is irrelevant or unspecified
88Radar or analogous systems, specially adapted for specific applications
Appl.No PCT/EP2017/052993 Applicant FRAUNHOFER-GESELLSCHAFT ZUR FÖRDERUNG DER ANGEWANDTEN FORSCHUNG E. V. Inventor LANG, Stefan
The present invention relates to a method and an arrangement for positioning a robot-guided interaction apparatus with respect to an object. In the method, one or more radar antennas (5) are integrated in the interaction apparatus or are fitted to the interaction apparatus and are controlled to emit and receive radar signals. A distance to the object (7) is determined from the received radar signals and a 3-D image of a scene recorded with the one or more radar antennas (5) is generated. The interaction apparatus is then positioned with respect to the object (7) on the basis of the distance determined from the radar signals and the 3-D image generated from the radar signals. The method and the arrangement make it possible to position the interaction apparatus in a highly accurate manner in virtually any environments and with restricted visibility conditions without having to make alterations or install additional sensors at the particular location of use.
3.202021022995COVID19 KILLER ROBOT: PORTABLE ULTRAVIOLET DISINFECTANT APPLIANCE
IN 31.07.2020
Int.Class B25J 9/00
BPERFORMING OPERATIONS; TRANSPORTING
25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; HANDLES FOR HAND IMPLEMENTS; WORKSHOP EQUIPMENT; MANIPULATORS
JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
9Programme-controlled manipulators
Appl.No 202021022995 Applicant DR. SOUMITRA DAS Inventor DR. SOUMITRA DAS
Patent Title: Covid19 KILLER ROBOT: PORTABLE ULTRAVIOLET DISINFECTANT APPLIANCEABSTRACTMy invention “Covid19 KILLER ROBOT “is an appliance will able to sterilize anything that is suspected to contain covid 19, viruses and bacteria. This antimicrobial invention can also be used to sterilize mask which can be reused. The invention will be in the shape of a hand held device which will have a button and by pressing the button, the ultraviolet LED is turned on and quickly sterilize the objects local spot. The invention will emit Short-wave Ultraviolet rays between 200 and 280 nanometres, to destroy the DNA and RNA of Covid19, bacteria and viruses, rendering them unable to reproduce, effectively sterilizing the surfaces with which it comes into contact. Once we pass with this sterilizing “Covid19 KILLER ROBOT” over the work area, that area is really clean. It should able to kill 99% to 99.99% of microbes on a surface of the objects, when you hold it within 1 centimetre for just few seconds. For example, if we consider mask as an object, the invention (Covid19 KILLER ROBOT) should able to sterilize the inner layer and outer layer of the mask. It can kill the microbes that are associated with the oral cavity and also kill microbes that have been breathed in from the environment and landed on the mask.
4.WO/2017/003700RF MEASUREMENT DEVICE AND SYSTEM
WO 05.01.2017
Int.Class G01R 1/067
GPHYSICS
01MEASURING; TESTING
RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
1Details of instruments or arrangements of the types covered by groups G01R5/-G01R13/122
02General constructional details
06Measuring leads; Measuring probes
067Measuring probes
Appl.No PCT/US2016/037725 Applicant MICROSOFT TECHNOLOGY LICENSING, LLC Inventor RONKAINEN, Tapio Juhani
A EUT (equipment under test) positioning device is disclosed. The device comprises a holder element configured to hold EUT, a sliding element configured to move the holder element horizontally, a rotating element attached to the sliding element and configured to rotate the holder element, at least three telescopic elements attached to the rotating element and configured to independently move the holder element vertically, at least five actuators individually attached to the sliding element, the rotating element and the telescopic elements, wherein the actuators are configured to activate movement of the sliding element, the rotating element and the telescopic elements, and a position monitoring element configured to monitor the position of EUT. The holder element, the sliding element, the rotating element, and the telescopic elements comprise radio frequency transparent material.
5.WO/2013/074969SYSTEMS AND METHOD FOR COMMUNICATING ROBOT INTENTIONS TO HUMAN BEINGS
WO 23.05.2013
Int.Class B25J 13/08
BPERFORMING OPERATIONS; TRANSPORTING
25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; HANDLES FOR HAND IMPLEMENTS; WORKSHOP EQUIPMENT; MANIPULATORS
JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
13Controls for manipulators
08by means of sensing devices, e.g. viewing or touching devices
Appl.No PCT/US2012/065592 Applicant UNIVERSITY OF SOUTH FLORIDA Inventor SUN, Yu
In one embodiment, communicating robot intentions to human beings involves determining movements that a robot will make to complete a task, visually communicating a long-term intention of the robot that provides an indication of the movements the robot will make in completing the task, and visually communicating a short-term intention of the robot that provides an indication of a movement of the robot will make within the next few seconds in working toward completing the task.
6.107791252Control device, control system, control method, and record medium
CN 13.03.2018
Int.Class B25J 9/18
BPERFORMING OPERATIONS; TRANSPORTING
25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; HANDLES FOR HAND IMPLEMENTS; WORKSHOP EQUIPMENT; MANIPULATORS
JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
9Programme-controlled manipulators
16Programme controls
18electric
Appl.No 201710792566.6 Applicant SHARP KABUSHIKI KAISHA Inventor USUI, DAISUKE
A control device has: a control signal generation unit which generates a control signal; a sending unit; and a communication switch. The sending unit blends the control signal with a sending signal which is sent to a controlled object via wireless communication. The communication switch is configured by having a first communication forbidden state and a communication availiable status, wherein thefirst communication forbidden state turns into the first communication forbidden state due to external operation; and when the operation is removed, the system returns to the first communication forbidden state; in addition, the communication switch allows wireless communication by the sending unit during the communication availiable status, and forbids the wireless communication by the sending unit during the first communication forbidden state.
7.20200130177SYSTEMS AND METHODS FOR FEW-SHOT TRANSFER LEARNING
US 30.04.2020
Int.Class B25J 9/16
BPERFORMING OPERATIONS; TRANSPORTING
25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; HANDLES FOR HAND IMPLEMENTS; WORKSHOP EQUIPMENT; MANIPULATORS
JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
9Programme-controlled manipulators
16Programme controls
Appl.No 16532321 Applicant HRL LABORATORIES, LLC Inventor Soheil Kolouri

A method for training a controller to control a robotic system includes: receiving a neural network of an original controller for the robotic system based on origin data samples from an origin domain and labels in a label space, the neural network including encoder and classifier parameters, the neural network being trained to: map an input data sample from the origin domain to a feature vector in a feature space using the encoder parameters; and assign a label of the label space to the input data sample using the feature vector based on the classifier parameters; updating the encoder parameters to minimize a dissimilarity, in the feature space, between: origin feature vectors computed from the origin data samples; and target feature vectors computed from target data samples from a target domain; and updating the controller with the updated encoder parameters to control the robotic system in the target domain.

8.WO/2018/080471ROBOTIC SYSTEM AND METHOD OF MOVEMENT CONTROL USING SYNTHETIC ARRAY RADAR AND PASSIVE BEACONS
WO 03.05.2018
Int.Class B25J 9/16
BPERFORMING OPERATIONS; TRANSPORTING
25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; HANDLES FOR HAND IMPLEMENTS; WORKSHOP EQUIPMENT; MANIPULATORS
JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
9Programme-controlled manipulators
16Programme controls
Appl.No PCT/US2016/058798 Applicant SONY MOBILE COMMUNICATIONS INC. Inventor KARLSSON, Peter C.
A system includes a moveable element adapted to move relative to a coordinate system defined for a robot, an object detection transceiver unit adapted to be mounted on the moveable element, and a controller. The controller controls the object detection transceiver unit to emit a signal and obtain a return signal for an operational cell of the robot at each of a series of predetermined positions to emulate a transceiver aperture larger than an aperture of the object detection transceiver unit. A location corresponding to a marker present in the operational cell is determined from the return signals. A predetermined operation is carried out where the predetermined operation includes using the determined location to guide movement of the robot.
9.20170003333RF measurement device and system
US 05.01.2017
Int.Class G01R 27/04
GPHYSICS
01MEASURING; TESTING
RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
27Arrangements for measuring resistance, reactance, impedance, or electric characteristics derived therefrom
02Measuring real or complex resistance, reactance, impedance, or other two-pole characteristics derived therefrom, e.g. time constant
04in circuits having distributed constants
Appl.No 14755216 Applicant Microsoft Technology Licensing, LLC Inventor Tapio Juhani Ronkainen

A EUT (equipment under test) positioning device is disclosed. The device comprises a holder element configured to hold EUT, a sliding element configured to move the holder element horizontally, a rotating element attached to the sliding element and configured to rotate the holder element, at least three telescopic elements attached to the rotating element and configured to independently move the holder element vertically, at least five actuators individually attached to the sliding element, the rotating element and the telescopic elements, wherein the actuators are configured to activate movement of the sliding element, the rotating element and the telescopic elements, and a position monitoring element configured to monitor the position of EUT. The holder element, the sliding element, the rotating element, and the telescopic elements comprise radio frequency transparent material.

10.WO/2019/175691INDUSTRIAL ROBOT WITH RADAR FOR COLLISION PREVENTION
WO 19.09.2019
Int.Class B25J 19/02
BPERFORMING OPERATIONS; TRANSPORTING
25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; HANDLES FOR HAND IMPLEMENTS; WORKSHOP EQUIPMENT; MANIPULATORS
JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
19Accessories fitted to manipulators, e.g. for monitoring, for viewing; Safety devices combined with or specially adapted for use in connection with manipulators
02Sensing devices
Appl.No PCT/IB2019/051378 Applicant COVER SISTEMI S.R.L. Inventor ALESSIO, Cacciatori
A robot for performing automated machining operations comprising: a support structure (2); a mechanical arm (3) operatively connected to said support structure (2) and provided, at the free end (4), with a tool (5) for performing machining operations. Radar devices (8) are arranged on the mechanical arm (3) for the 3D detection of obstacles.