Patent application number | Description | Published |
20110268349 | SYSTEM AND METHOD BUILDING A MAP - A system building a map while an image sensor is moving, the system including the image sensor configured to capture images while the image sensor moves relative to one or more different locations, a sub-map building unit configured to recognize a relative location for at least the image sensor of the system using the captured images, build up a sub-map, and if a condition for stopping a building of the sub-map is met, store the sub-map which has been so far built up, an operation determining unit configured to determine whether the condition for stopping building the sub-map, an image group storing unit configured to store an image group including images that are newly captured from the image sensor after the storing of the sub-map when the condition for the stopping of the building of the sub-map is satisfied, and an overall map building unit configured to build an overall map based on the built sub-map and the stored image group when a current relative location for at least the image sensor of the system is determined to be same as a previous relative location for at least the image sensor of the system. | 11-03-2011 |
20110299736 | APPARATUS FOR LOCALIZATION USING IMAGE AND RANGE DATA AND METHOD THEREOF - A localization apparatus and method for localizing by use of image information and range data are provided. The localization apparatus includes an image sensor which captures an image and outputs image data, a range sensor which senses a distance and outputs a range sensing signal, an image feature point information processing unit which extracts image feature points from the sensed image and generates image feature point information about the extracted image feature points, a range feature point information processing unit which generates range feature point information about range feature points from the range sensing signal, and a state estimation unit which estimates a state variable including a position of the localization apparatus by using the image feature point information and the range feature point information as an observation value. | 12-08-2011 |
20110320123 | APPARATUS FOR RECOGNIZING POSITION USING RANGE SIGNALS AND METHOD THEREOF - A position recognizing apparatus and method is provided. The position recognizing apparatus includes a range sensor which senses a distance between the position recognizing apparatus and a range landmark, and a candidate range landmark information generating unit which generates information about candidate range landmarks. The candidate range landmark information is modeled using a position and a posture of the position recognizing apparatus, the sensed distance and an angle between the range landmark and the position recognizing apparatus. The position recognizing apparatus further includes a range landmark extracting unit which, if a new distance is sensed, updates the candidate range landmark information and extracts actual range landmark information from the candidate range landmark information, and a position recognizing unit which recognizes a position of the position recognizing apparatus based on the extracted actual range landmark information. | 12-29-2011 |
20120143174 | SURGICAL INSTRUMENT - A surgical instrument utilized in a minimally invasive surgery is provided. The surgical instrument includes an end effecter configured to conduct a surgical operation, a piezoelectric driver configured to generate motive power, a power transmitting unit configured to transmit the motive power generated by the piezoelectric driver to the end effecter to operate the end effecter, and a housing which encloses the power transmitting unit and the at least one piezoelectric driver. | 06-07-2012 |
20120310252 | SURGICAL DEVICE - A surgical device, the surgical device including a mounting part mounted on a robot arm of a surgical robot; an extension part extending from the mounting part; a joint driving part that comprises a driving motor having a driving axis, that comprises a driving rod connected to the driving axis and reciprocating, and that is connected to an end of the extension part; and a joint part that is connected to the joint driving part, that is driven at one or more degrees of freedom by the driving rod, wherein the driving motor is connected to the driving axis with an elastic connection member. | 12-06-2012 |
20120310253 | SURGICAL DEVICE - A surgical device including first and second joint parts that are connected in series is provided. The surgical device includes a plurality of link arms that pass through an inner portion of the first joint part so as to drive the second joint part. The link arms are serially connected so as to rotate with respect to each other, and are rotatably connected to a driving unit for driving the plurality of link arms. | 12-06-2012 |
20130104672 | FORCE SENSING APPARATUS AND ROBOT ARM INCLUDING THE SAME | 05-02-2013 |
20130317520 | SURGICAL IMPLEMENT AND MANIPULATION SYSTEM INCLUDING THE SAME - A surgical implement and a manipulation system including the surgical implement may include at least one instrument including at least one joint portion. The joint portion may include a first part, a second part connected to the first part, and a force applying element for applying a force for bending (or rotating) the second part. A distance between a joint point and a force application point where a force is applied may be greater than a diameter of at least one of the first part and the second part. The instrument may further include a second joint portion spaced apart from the joint portion, and a surgical tool connected to an end portion of the second joint portion. The manipulation system may include a supporting structure, at least one instrument supported by the supporting structure, and an operating device for operating the instrument. | 11-28-2013 |
20130317521 | SUPPORTER DEVICE AND SURGICAL ROBOT SYSTEM INCLUDING THE SAME - A supporter device supports an instrument which is inserted in an object. The supporter device includes a base member having an insertion region through which the instrument passes, a movable member installed on the base member so as to move around the insertion region, and a pivot member installed to be pivotable based on a pivot axis that passes through the insertion region, wherein the instrument may be mounted on the pivot member. A movable central axis of the movable member and an extension axis of the instrument may cross at a single crossed point. | 11-28-2013 |
20140257329 | CONTROL METHODS OF SINGLE-PORT SURGICAL ROBOT - A control method of a single-port surgical robot, the single-port surgical robot comprising a slave device including a surgical instrument provided with an elbow and an end effector, and a master device to control motion of the slave device may comprise setting a virtual incision port to an arbitrary position; setting an operating position of the end effector; calculating a target position of the elbow using the set position of the virtual incision port and the set operating position of the end effector; calculating a movement angle of each joint used to move the elbow using the calculated target position of the elbow; and/or calculating a movement angle of each joint used to move the end effector using the calculated target position of the elbow and the set operating position of the end effector. | 09-11-2014 |
20150019103 | MOBILE ROBOT HAVING FRICTION COEFFICIENT ESTIMATION FUNCTION AND FRICTION COEFFICIENT ESTIMATION METHOD - A mobile robot configured to move on a ground. The mobile robot including a contact angle estimation unit estimating contact angles between wheels of the mobile robot and the ground and uncertainties associated with the contact angles, a traction force estimation unit estimating traction forces applied to the wheels and traction force uncertainties, a normal force estimation unit estimating normal forces applied to the wheels and normal force uncertainties, a friction coefficient estimation unit estimating friction coefficients between the wheels and the ground, a friction coefficient uncertainty estimation unit estimating friction coefficient uncertainties, and a controller determining the maximum friction coefficient from among the friction coefficients such that the maximum friction coefficient has an uncertainty less than a threshold and at a point of time when the torque applied to each of the wheels changes from an increasing state to a decreasing state, among the estimated friction coefficients. | 01-15-2015 |
20150090756 | BABY CARRIER - Disclosed is a baby carrier having a seat disposed at an upper portion of a walking assistance robot such that the weight of a baby is supported by the floor while being distributed through the walking assistance robot, thereby significantly reducing a fatigue of a user generated when a baby is held in arms or carried on a back of the user. | 04-02-2015 |
20150196450 | JOINT ASSEMBLY AND WALKING ASSISTANT ROBOT HAVING THE SAME - According to an aspect of the present invention, it is possible to implement a joint assembly operating similar to a user's actual ankle joint. An ankle joint included in a walking assistant robot is pivotable around a rotation axis located outside the ankle joint. | 07-16-2015 |
20150209215 | HOLDER AND WALKING ASSISTANT ROBOT HAVING THE SAME - A holder may be more easily mounted on a user's body by applying tension to a cable. An inner side surface of the holder with which the user's body comes in contact transmits uniform pressure to the user's body such that the holder may be more comfortable to the user. | 07-30-2015 |
20150272764 | LINK ASSEMBLY, FRAME, AND WALKING ASSISTANCE ROBOT - A frame configured of a plurality of links pivotally connected to one another is flexibly bent, and pins that connect the plurality of links that constitute the frame are inserted into and slide in a curve-shaped slot and a slot in a vertical direction so that, even though the frame is bent, the entire length of the frame is increased and ends of the frame can be moved along a straight line that is horizontal with respect to the ground. | 10-01-2015 |
20150272811 | JOINT ASSEMBLY AND WALKING ASSISTANCE ROBOT - In a joint assembly of a walking assistance robot that is capable of performing an operation with 3 degrees of freedom, similarly to a user's joint, a rolling motion and a sliding motion are simultaneously made, and a rotation center changes so that the joint assembly can make a similar motion to that of an actual knee joint of the user. Thus, when the user wears the walking assistance robot and walks, misalignment can be prevented from occurring in the knee joint. | 10-01-2015 |
20150335514 | DRIVING MODULES AND MOTION ASSISTANCE APPARATUSES INCLUDING THE SAME - A driving module may include: an object fix member configured to be fixed to an object; a first sub-module including a body portion, connected to a first side of the object fix member, and a first rotating member, connected rotatably to the body portion; a second sub-module including an extension link, connected to a second side of the object fix member, and a second rotating member, connected rotatably to the extension link; and/or a power transmitting member connected to the first rotating member and the second rotating member, and configured to transmit power. | 11-26-2015 |
20150335515 | WALKING ASSISTANCE APPARATUS - A walking assistance apparatus for preventing offset occurring in between a rotating axis of a hip joint of a user and a rotating shaft of the walking assistance apparatus may be provided. The walking assistance apparatus includes a waist fixing apparatus configured to be fixed to a waist of a user, a connecting guide mounted at the waist fixing apparatus and configured to slide in an extension direction of the waist fixing apparatus and rotate on a rotating shaft extending in a vertical direction perpendicular to the extension direction, a rail unit mounted at one side of the connecting guide, the rail unit extending in a vertical direction, and a hip joint configured to slide along the rail unit. | 11-26-2015 |
20150336265 | SUPPORTING MODULES AND MOTION ASSISTANCE APPARATUSES INCLUDING THE SAME - A supporting module may include: a supporting frame configured to support an action part of an object; a pressure member connected to the supporting frame and configured to push the action part to rotate when the supporting frame rotates in a first direction; a supporting member configured to pull the action part to rotate when the supporting frame rotates in a second direction; and/or a dispersion member, between the pressure member and the supporting member, configured to disperse force transmitted from the pressure member in a direction perpendicular to a direction of the transmitted force and configured to transmit the dispersed force to the supporting member. | 11-26-2015 |
20160030271 | DRIVING MODULE AND MOTION ASSISTANCE APPARATUS INCLUDING THE SAME - A driving module and a motion assistance apparatus including the same may be provided. For example, the driving module including a driving source provided on one side of a user and configured to transmit power, a power transmitting rotary body configured to rotate by the power transmitted from the driving source, and a first decelerator configured to transmit power between the driving source and the power transmitting rotary body, the first decelerator having an input side rotary body configured to receive power from the driving source, and an output side rotary body configured to transmit power to the power transmitting rotary body may be provided. | 02-04-2016 |
20160038313 | DRIVING MODULE, MOTION ASSISTANCE APPARATUS INCLUDING THE DRIVING MODULE, AND METHOD OF CONTROLLING THE MOTION ASSISTANCE APPARATUS - Driving modules, motion assistance apparatuses including at least one of the driving modules, and methods of controlling at least one of the motion assistance apparatus may be provided. For example, a driving module including a driving source on one side of a user and configured to transmit power, an input side rotary body connected to the driving source and configured to rotate, and a first decelerator and a second decelerator configured to operate using the power received from the driving source through the input side rotary body, wherein a gear ratio from the input side rotary body to an output terminal of the first decelerator differs from a gear ratio from the input side rotary body to an output terminal of the second decelerator, may be provided. | 02-11-2016 |
20160038328 | LINK ASSEMBLY AND MEMBER SUPPORTING APPARATUS USING THE SAME - Example embodiments relate to a link assembly and a leg supporting apparatus using the same. A top end of a frame mounted on a user's thigh can move along a downwardly-concave trajectory. A center of weight of the leg supporting apparatus placed on the top end of the frame converges on a lowest point of the downwardly-concave trajectory so that the user's weight can be stably supported. | 02-11-2016 |
20160038368 | DRIVING MODULE, MOTION ASSISTANCE APPARATUS INCLUDING THE DRIVING MODULE, AND METHOD OF CONTROLLING THE MOTION ASSISTANCE APPARATUS - Driving modules, motion assistance apparatuses including at least one of the driving modules, and methods of controlling at least one of the motion assistance apparatuses may be provided. For example, a driving module including a driving source on one side of a user and configured to transmit power, an input side rotary body coupled to the driving source and configured to rotate, first and second decelerators configured to operate using the power respectively received from the driving source through the input side rotary body, and a first stopper and a second stopper configured to selectively enable or disable a transmission of the power between the input side rotary body and respective output terminals of the first and second decelerators may be provided. | 02-11-2016 |
20160045387 | FIXING MODULE AND MOTION ASSISTANCE APPARATUS INCLUDING THE SAME - Provided are a fixing module and a motion assistance apparatus including the fixing module including a first side frame including a first central portion on one side of a user, a first front extending portion configured to extend from the first central portion along a front side of the user, and a first rear extending portion configured to extend from the first central portion along a rear side of the user, and a second side frame including a second central portion on another side of the user, a second front extending portion configured to extend from the second central portion along the front side of the user, and a second rear extending portion. | 02-18-2016 |
20160106615 | DRIVING MODULE, MOTION ASSISTANCE APPARATUS INCLUDING THE DRIVING MODULE, AND METHOD OF CONTROLLING THE MOTION ASSISTANCE APPARATUS - A driving module and a motion assistance apparatus including the same may be provided. For example, the driving module including a driving source disposed on one side of a user, and configured to provide power, a first decelerator including a first input terminal coupled to the driving source, and a first output terminal and a second output terminal configured to receive power from the first input terminal, a second decelerator including a second input terminal coupled to the first output terminal, and a third output terminal and a fourth output terminal configured to receive power from the second input terminal, and a third decelerator including a third input terminal coupled to the second output terminal, and a fifth output terminal and a sixth output terminal configured to receive power from the third input terminal may be provided. | 04-21-2016 |