Tactile Sensor Patents (Class 901/33)
-
Patent number: 7219064Abstract: To provide a robot which autonomously forms and performs an action plan in response to external factors without direct command input from an operator. When reading a story printed in a book or other print media or recorded in recording media or when reading a story downloaded through a network, the robot does not simply read every single word as it is written. Instead, the robot uses external factors, such as a change of time, a change of season, or a change in a user's mood, and dynamically alters the story as long as the changed contents are substantially the same as the original contents. As a result, the robot can read aloud the story whose contents would differ every time the story is read.Type: GrantFiled: October 23, 2001Date of Patent: May 15, 2007Assignee: Sony CorporationInventors: Hideki Nakakita, Tomoaki Kasuga
-
Patent number: 7191036Abstract: A model's ZMP (full-model's ZMP) is calculated using a dynamic model (inverse full-model) 100c2 that expresses a relationship between a robot movement and floor reaction, a ZMP-converted value of full model's corrected moment about a desired ZMP is calculated or determined based on a difference (full-model ZMP's error) between the calculated model's ZMP and the desired ZMP, whilst a corrected desired body position is calculated or determined. Since the robot posture is corrected by the calculated ZMP-converted value and the corrected desired body position, the corrected gait can satisfy the dynamic equilibrium condition accurately.Type: GrantFiled: January 24, 2006Date of Patent: March 13, 2007Assignee: Honda Giken Kogyo Kabushiki KaishaInventors: Toru Takenaka, Takashi Matsumoto, Tadaaki Hasegawa
-
Patent number: 7120518Abstract: A model's ZMP (full-model's ZMP) is calculated using a dynamic model (inverse full-model) 100c2 that expresses a relationship between a robot movement and floor reaction, a ZMP-converted value of full model's corrected moment about a desired ZMP is calculated or determined based on a difference (full-model ZMP's error) between the calculated model's ZMP and the desired ZMP, whilst a corrected desired body position is calculated or determined. Since the robot posture is corrected by the calculated ZMP-converted value and the corrected desired body position, the corrected gait can satisfy the dynamic equilibrium condition accurately.Type: GrantFiled: April 25, 2002Date of Patent: October 10, 2006Assignee: Honda Giken Kogyo Kabushiki KaishaInventors: Toru Takenaka, Takashi Matsumoto, Tadaaki Hasegawa
-
Patent number: 7082351Abstract: Communication system of a group robot system is made hierarchical, having a base station as an uppermost layer and a plurality of layers formed by a plurality of sensing robots, and the plurality of sensing robots are controlled such that a sensing robot belonging to an upper layer of the hierarchical structure has higher sensing resolution than a sensing robot belonging to a lower layer of the hierarchical structure. Thus, a group robot system capable of efficiently searching for an object can be obtained.Type: GrantFiled: November 18, 2002Date of Patent: July 25, 2006Assignee: Sharp Kabushiki KaishaInventors: Keita Hara, Masaki Hamamoto, Yoshiji Ohta, Kenji Ohta
-
Patent number: 7076338Abstract: A predetermined action sequence is generated by using basic motion units which include time-sequential motion of each joint and compound motion units in which basic motion units are combined. Motion natterns of a robot including walking are classified into motion units, each motion unit servins as a unit of motion, and one or more motion units are combined to generate various complex motions. Dynamic motion units are defined on the basis of basic dynamic attitudes, and a desired action sequence can be generated by using the dynamic motion units. This is a basic control method necessary for a robot to autonomously perform a continuous motion, a series of continuous motions, or motions which are chanaed in real-time by commands.Type: GrantFiled: August 16, 2004Date of Patent: July 11, 2006Assignees: Sony CorporationInventors: Yoshihiro Kuroki, Tatsuzo Ishida, Jinichi Yamaguchi
-
Patent number: 7072741Abstract: A control algorithm constructing device that constructs a control algorithm controlling the motion of a robot, and a controller that controls the motion of the robot in accordance with the constructed control algorithm, with the purpose of reducing the cost and time taken to create the control algorithm as compared with the conventional method such as an MZP method to solve a mechanical equation, in which the control algorithm is constructed by a recurrent neural network (RNN) including a neuron generating an output with an analogue lag with respect to an input, the coefficients of the RNN are determined in succession from the term of lower degree to the term of higher degree.Type: GrantFiled: January 4, 2005Date of Patent: July 4, 2006Assignee: Fujitsu LimitedInventor: Fumio Nagashima
-
Patent number: 7006895Abstract: A teleoperator system with telepresence is shown which includes right and left hand controllers (72R and 72L) for control of right and left manipulators (24R and 24L) through use of a servomechanism that includes computer (42). Cameras (46R and 46L) view workspace (30) from different angles for production of stereoscopic signal outputs at lines (48R and 48L). In response to the camera outputs a 3-dimensional top-to-bottom inverted image (30I) is produced which, is reflected by mirror (66) toward the eyes of operator (18). A virtual image (30V) is produced adjacent control arms (76R and 76L) which is viewed by operator (18) looking in the direction of the control arms. By locating the workspace image (30V) adjacent the control arms (76R and 76L) the operator is provided with a sense that end effectors (40R and 40L) carried by manipulator arms (34R and 34L) and control arms (76R and 76L) are substantially integral.Type: GrantFiled: October 26, 2004Date of Patent: February 28, 2006Assignee: SRI InternationalInventor: Philip S. Green
-
Patent number: 6999852Abstract: A teleoperator system with telepresence is shown which includes right and left hand controllers (72R and 72L) for control of right and left manipulators (24R and 24L) through use of a servomechanism that includes computer (42). Cameras (46R and 46L) view workspace (30) from different angles for production of stereoscopic signal outputs at lines (48R and 48L). In response to the camera outputs a 3-dimensional top-to-bottom inverted image (30I ) is produced which, is reflected by mirror (66) toward the eyes of operator (18). A virtual image (30V) is produced adjacent control arms (76R and 76L) which is viewed by operator (18) looking in the direction of the control arms. By locating the workspace image (30V) adjacent the control arms (76R and 76L) the operator is provided with a sense that end effectors (40R and 40L) carried by manipulator arms (34R and 34L) and control arms (76R and 76L) are substantially integral.Type: GrantFiled: October 26, 2004Date of Patent: February 14, 2006Assignee: SRI InternationalInventor: Philip S. Green
-
Patent number: 6976822Abstract: Passive end-effectors for handling microelectronic workpieces having a perimeter edge circumscribing a first diameter. In one embodiment, a passive end-effector in accordance with the invention includes a body having a plurality of contact sites located along a circle corresponding to the first diameter of the workpiece. The body, for example, can be a paddle or a fork. The passive end-effector can also include a plurality of passive abutments that are carried by the body. The abutments are located along the circle, and the abutments are configured to support the workpiece in a plane spaced apart from the body. The abutments, for example, can each include an inclined surface that slopes downwardly toward a central region of the circle to support only the edge of the workpiece in a manner that suspends or otherwise spaces the workpiece in a plane that is spaced apart from the body. The passive end-effector can further include a sensor assembly that is carried by the body.Type: GrantFiled: July 14, 2003Date of Patent: December 20, 2005Assignee: Semitool, Inc.Inventors: Daniel J. Woodruff, James J. Erickson
-
Patent number: 6926489Abstract: A latch sensor for a pod transport gripper for transferring semiconductor wafers is disclosed. The transport gripper has a left bar and a right bar, as well as a cross bar connecting the left and the right bars. The gripper also has a left clamp and a right clamp disposed on interior sides of the left bar and the right bar, respectively, to clamp a pod, such as a front-opening unified pod (FOUP), for transport. A number of latches are disposed on the cross bar, and correspond to a number of latch holes of the pod. The gripper has at least one latch sensor disposed on either the left bar, the right bar, or both, to determine whether the latches have properly engaged the latch holes of the pod.Type: GrantFiled: May 9, 2002Date of Patent: August 9, 2005Assignee: Taiwan Semiconductor Manufacturing Co., LtdInventors: Yan-Ping Lee, Kuo-Hsing Teng, Chi-Chung Chang, Fu-Shun Lo
-
Patent number: 6876903Abstract: A gait generation system of a legged mobile robot, in particular a biped robot that has the dynamic model expressing the relationship between the motion of the body and leg and the floor reaction force, and provisionally determines the current time gait parameters including at least parameters that determine leg trajectory and the like in response to a demand, supposes the parameters of a periodic gait, corrects the current time gait parameters such that the body trajectory determined from the dynamic model and the parameters of the current time gait, etc., converges to a body trajectory determined from the parameters of the periodic gait, and determines instantaneous values of the current time gait based on the corrected current time gait parameter. With this, the system can generates a gait of any stride, turning angle and walking period, including the floor reaction force acting on the legged mobile robot, that satisfies the dynamic equilibrium condition.Type: GrantFiled: November 16, 2001Date of Patent: April 5, 2005Assignee: Honda Giken Kogyo Kabushiki KaishaInventor: Toru Takenaka
-
Patent number: 6846455Abstract: The invention relates to an automatic sampler device. According to one aspect, the automatic sampler includes a cell having a sample platform and a reference platform; a sample tray; and a sample arm. The sample tray has wells into which sample pans and reference pans are inserted. The geometry of the automatic sampler device permits the sample platform, the reference platform, and the wells in the sample tray to be accessed by the sample arm along a common arc. According to another aspect, the automatic sampler device includes a sample tray with wells, a sample arm, and a gripper device. The gripper device has gripping fingers. The gripping fingers open or close in a manner that tends to center objects grasped by the gripper device. According to another aspect, the automatic sampler device includes a sample tray with wells, a sample arm, and a gripper device. The sample arm has an optical sensor and an electrical sensor.Type: GrantFiled: March 2, 2001Date of Patent: January 25, 2005Assignee: TA Instruments-Waters, LLCInventors: Christopher F. Carney, Fred L. Ferguson, John R. Reader, Weidong Liu, Jay A. Crosby
-
Patent number: 6840668Abstract: The present invention relates to apparatus, systems, and methods for opening an autosampler sealed sample pan prior to TGA testing. The sealed sample pan comprises a pan, cover, and bail. A notch is formed in the seal sample pan cover. The cover can be opened by applying a concentrated force to the inside of the notch with a punch element integrated into the autosampler. This causes the center disk portion of the cover to be partially sheared and the sealed sample pan to be opened. It also prevents the punch element from touching the sample. A force sensor is used to determine if the cover has been opened. If the cover has been opened, then the sample pan is loaded to the TGA balance. If the cover has not been opened, the autosampler will not load the pan and will automatically move to the next sealed sample pan.Type: GrantFiled: July 25, 2003Date of Patent: January 11, 2005Assignee: Waters Investment LimitedInventors: John R. Reader, Jr., Amichai Shdaimah, Fred L. Ferguson
-
Patent number: 6799086Abstract: A robot control system includes a scenario receiver to receive a robot control program or scenario, a scenario register to incorporate the received scenario in the robot, a scenario selector to select a scenario for execution thereof from scenarios beforehand incorporated in the robot and scenarios added to the robot, and a scenario executor to execute the selected scenario. Therefore, there are provided a robot, a robot control system, and a program of the same in which a new control program module can be added to a robot control program.Type: GrantFiled: January 30, 2002Date of Patent: September 28, 2004Assignee: NEC CorporationInventor: Yasuyuki Toki
-
Patent number: 6690999Abstract: A method for controlling a hyper-redundant manipulator including a plurality of links coupled by joints by determining the shape the manipulator takes when the end of the manipulator is moved to a target position, includes modeling each link as an elastic body having a natural length and a suitable modulus of elasticity that enables the elastic body to stretch and contract, simulating the overall shape of the manipulator when the end has been moved to the target position with the joints locked at a freezed angle and the joints are unlocked to return each link to its natural length, and moving the manipulator end to the target position by controlling each joint angle to match the simulation outcome.Type: GrantFiled: July 23, 2002Date of Patent: February 10, 2004Assignee: Communications Research Laboratory, Independent Administrative InstitutionInventor: Shinichi Kimura
-
Patent number: 6593756Abstract: The invention relates to a tactile sensor in which a fiber (1) is linked with an instrument transformer (4) which is configured as a capacitor in such a manner that if the free end of the fiber is touched by an object, the touch is converted to electric signals. The force acting between the object and the sensor is kept at a minimum by using soft, elastic fibers. The inventive tactile sensor is especially useful for applications in robotics since due to the appropriate arrangement of the sensor on the contact surface of the robot gripper the sensor function is independent of any forces that might occur during the manipulation of objection. Another advantage of the tactile sensor is that it allows the dynamic registration of touches, thereby making it possible to determine the relative speed between the sensor and the object and to detect gliding or slipping movements on the basis of detected vibrations.Type: GrantFiled: September 28, 2001Date of Patent: July 15, 2003Assignee: Rubitec Gesellschaft für Innovation und Technologie der Ruhruniversität Bochum mbHInventors: Peer Schmidt, Eric Maël, Rolf Würtz
-
Patent number: 6456901Abstract: A hybrid control system is provided for controlling the movement of a robot. The hybrid control system includes a singularity detector; a task level controller that receives a motion plan and determines a first set of control commands which are defined in a task space; and a joint level controller that receives the motion plan and determines a second set of control commands which are defined in a joint space. The singularity detector monitors the movement of the robot and detects robot movement in a region about a singularity configuration. When robot movement occurs outside of this region, the task level controller is operable to issue the first set of control commands to the robot. When the robot movement occurs inside of this region, the joint level controller is operable to issue the second set of control commands to the robot. In this way, the hybrid control system ensures feasible robot motion in the neighborhood of and at kinematic singularity configuration.Type: GrantFiled: April 20, 2001Date of Patent: September 24, 2002Inventors: Ning Xi, Jindong Tan
-
Patent number: 6243623Abstract: In a legged mobile robot, in particular in a biped robot, the feet position and/or posture is determined in such a manner that compensating moment of total floor reaction force about a desired total floor reaction force central point is determined, based upon the detected posture inclination of the robot, and is distributed to each of the feet such that each foot rotates respectively by predetermined angles about the desired total foot floor reaction force central point and a desired foot floor reaction force central point, in order to control the actual total floor reaction force and the actual foot floor reaction force acting on the robot properly such that it walks on a floor having not only a slope extending over a relatively long distance, but also existing locally. With this, it becomes possible to control the floor reaction force acting on the robot easily and properly, without causing any interference to occur.Type: GrantFiled: August 25, 1999Date of Patent: June 5, 2001Assignee: Honda Giken Kogyo Kabushiki KaishaInventors: Toru Takenaka, Tadaaki Hasegawa, Takashi Matsumoto
-
Patent number: 5965880Abstract: In a pressure sensing system comprising a tactile pressure sensor with an opaque cylindrical body disposed in a tube and having axial passages extending between its opposite end faces, an electroluminescent foil is disposed at one end face and a support body which includes light collecting means is disposed at the other end face so that light emitted by the luminescent foil and passing through the passages--dependent on the pressure applied to the one end face--is conducted to an imaging device for determining the pressure distribution applied to the one end face of the cylindrical body.Type: GrantFiled: February 5, 1998Date of Patent: October 12, 1999Assignee: Forschungszentrum Karlsruhe GmbHInventors: Rainer Wolf, Lothar Gamer, Harald Fischer
-
Patent number: 5762390Abstract: This invention provides a finger with three phalanges and three degrees of freedom for a flexible and versatile mechanical gripper which uses only a limited number of actuators. The finger is robust, can provide large grasping forces and can perform power grasps as well as pinch grasps. The mechanism used in the finger has an additional mechanism maintaining the last phalanx orthogonal to the palm in order to allow the gripper to perform pinch grasps on objects of different sizes. For purposes of fine control, tactile sensors as well as potentiometers are included in the finger. The mechanical gripper designed using these fingers allows the stable grasping of a wide class of objects while specifying only two coordinates (the force or position for closing the whole finger and the orientation of the finger) for each of the fingers. The mechanical gripper has three fingers and three phalanges per finger.Type: GrantFiled: July 16, 1996Date of Patent: June 9, 1998Assignee: Universite LavalInventors: Clement M. Gosselin, Thierry Laliberte
-
Patent number: 5740328Abstract: An apparatus for determining the relative position and pose of two objects. The apparatus includes a position sensing table and a tripod tactile sensing tool. The tactile sensing tool includes three digital indicator probes arranged in a tripod triangle. The position sensing table senses the position of each probe when in contact with the table. When all three probes are in contact with the table, the relative location of the table to the tool can be determined. The resulting information can be used for robotic part referencing and calibrations.Type: GrantFiled: August 12, 1996Date of Patent: April 14, 1998Assignee: The Regents of the University of CaliforniaInventors: Bahram Ravani, Walter W. Nederbragt
-
Patent number: 5531556Abstract: A plurality of main and sub-chucks are used in a manner wherein the main chucks are used to pick up objects from a first tray, to move the objects to a second tray, and to place them in the second tray in exactly the desired positions. A floating mechanism allows the main chucks to slide from side to side while the sub-chucks are released. The sub-chucks are arranged to grasp a fixed centering structure and to center the main chucks in exactly the required positions for the precision placement of the objects. During the operations wherein the objects are picked up from the first tray, the sub-chucks are released so that during the pickup operation, the main chucks may center on the objects which are being picked up. After the objects are grasped, the sub-chucks are closed to re-center the main chucks in exactly the positions required for accurate placement.Type: GrantFiled: July 26, 1994Date of Patent: July 2, 1996Assignee: Sony CorporationInventor: Kenji Kiyokawa
-
Patent number: 5520501Abstract: A wafer holding apparatus comprises a susceptor unit having wafer support grooves where wafers are detachably fixed, a plurality of chuck claws so provided as to be movable by air cylinders relative to a chuck body and adapted to hold the outer edge of the wafer, a transfer arm for transferring the chuck body to a predetermined position, and an automatic position correcting device for automatically correcting the positions of the chucks relative to the wafer support groove.Type: GrantFiled: May 15, 1995Date of Patent: May 28, 1996Assignee: Kabushiki Kaisha ToshibaInventors: Gisuke Kouno, Takuji Ashikari
-
Patent number: 5513106Abstract: A system for controlling the locomotion of a biped walking robot having a body and a pair of legs each connected to the body through a hip joint and having a knee joint and an ankle joint and a foot at its distal end in accordance with predetermined locomotion data including a foot landing position of a lifted leg. A 6-dimensional force and torque sensor is provided at the body to detect an external force exerted on the robot. A moment is calculated from the external force and integrated during the external force exists. A coefficient is further determined in accordance with the trajectory of the lifted leg and is multiplied to the integrated moment. The predetermined foot landing position is corrected in response to the product and control values for the associated drive joints are changed such that the lifted leg will land at the corrected position, whereby preventing the robot from losing its stability when the external force exerts on the robot.Type: GrantFiled: November 22, 1994Date of Patent: April 30, 1996Assignee: Honda Giken Kogyo Kabushiki KaishaInventors: Ryutaro Yoshino, Hideo Takahashi
-
Patent number: 5459659Abstract: A system for controlling attitude stabilization of a biped mobile robot having a trunk and two legs each connected to the trunk such that it walks on the ground. The system generates a desired walking pattern of the robot in such a manner that ground reaction force moment acting on the robot when the robot's leg comes into contact with the ground is at a desired position and is provided with a first model made up of an inverted pendulum and simulating dynamics of the robot and a second model simulating the mechanical structure of the robot such that the second model is assumed to walk on the ground in accordance with the desired walking pattern. An inclinatory error of the robot's trunk is detected relative to the second model. A manipulated variable is determined in terms of moment in response to the detected inclinatory error and supplying it to the first model such that the inverted pendulum is rotated about its pivot point by an amount corresponding to the manipulated variable.Type: GrantFiled: May 26, 1993Date of Patent: October 17, 1995Assignee: Honda Giken Kogyo Kabushiki KaishaInventor: Toru Takenaka
-
Patent number: 5426586Abstract: A system for controlling the locomotion of a biped walking robot by absorbing the footfall impact such that the robot walks stably. In advance, constraint conditions for the robot such as a coordinates position of the robot's center of gravity for the robot to assume a predetermined attitude are preestablished and in walking, robot's joint angles are determined inverse kinematically from the preestablished attitude constraint conditions. The ground reaction force generated at the footfall is detected and a correction amount required for shifting the center of gravity in the impact force absorbing direction is calculated. The attitude constraint conditions are recalculated in response to the correction amount and then the robot's joint angles are recalculated from the corrected attitude constraint conditions in three-dimensional, or at least in one of two-dimensional planes. Instead of the center of gravity, the robot's hip section can be used.Type: GrantFiled: February 25, 1993Date of Patent: June 20, 1995Assignee: Honda Giken Kogyo Kabushiki KaishaInventor: Nobuaki Ozawa
-
Patent number: 5200679Abstract: A robotic hand, claw manipulator or a prosthetic device includes plural artificial digits, each having a guide and plural phalanges. First and second cables have a first end fixedly connected to spaced first and second points on a digit distal tip, respectively, and a second end driven by a reversible motor. The cables are positioned and connected to the reversible motor, the two points and a guide arrangement so that in response to the motor being activated in a first direction the first cable exerts a tensile force on the first point and a compressive force on elements of the guide arrangement to cause one of the phalanges to be urged from a bent position toward a straight position and in response to the motor being activated in a second direction the second cable exerts a tensile force on the second point and a compressive force on elements of guide arrangement to cause the phalanx to be urged away from the straight position.Type: GrantFiled: February 22, 1990Date of Patent: April 6, 1993Inventor: Douglas F. Graham
-
Patent number: 5151859Abstract: A biped walking robot and system for controlling the robot. The system provides smooth posture control by eliminating interference arising between the frictional force of the ground acting on the legs of the robot and the driving force of the leg joints. A six-dimensional force and torque sensor is provided to detect six force or moment components and based thereon, an angular command to joint motors is corrected. A joint structure of the robot is described, wherein the axes of the drive joints are arranged at right-angles to one another to thereby enable accurate positional control to be effected using Cartesian coordinates.Type: GrantFiled: June 27, 1990Date of Patent: September 29, 1992Assignee: Honda Giken Kogyo Kabushiki KaishaInventors: Ryutaro Yoshino, Hiroshi Gomi, Masao Nishikawa, Masato Hirose
-
Patent number: 5055838Abstract: A high-performance single-crystal silicon tactile imaging array organized in a X-Y matrix of capacitor elements. Metallic column lines are formed on a glass support substrate, while the row lines are formed from a contiguous chain of doubly-supported bridge structures, with one such structure for each sensing element. All of the bridge structures are simultaneously fabricated from a single-crystal silicon semiconductor wafer using a two-step boron diffusion process, followed by a silicon-to-glass electrostatic bonding step and subsequent unmasked wafer dissolution. Each bridge structure has a thick center plate for the sense capacitor supported by thinner beams connected to adjacent row single-crystal silicon support rails bonded to the glass substrate. The force sensitivity and maximum operating range of the tactile imager can be selected over a very wide range by appropriately setting the dimensions of these thinner support beams.Type: GrantFiled: December 9, 1988Date of Patent: October 8, 1991Assignee: The Regents of the University of MichiganInventors: Kensall D. Wise, Kenichiro Suzuki
-
Patent number: 5046773Abstract: A tactile micro-gripper is disclosed having a combined lever and spring linkage. The lever flexes at predetermined points and is coupled to the spring and to an actuator. The spring is of a parallelogram type, so that the ends remain parallel to one another when the spring is bent. When the actuator causes the lever to move transversely, the end of the spring is caused to move laterally in a parallel manner. A pair of lever and spring linkages are arranged together so that they cooperatively act together to manipulate a pair of fingers, which are attached to the ends of the springs, to grip and release objects. Tactile sensing is accomplished by means of a cantilever beam and an optical detection system disposed in the tip of the fingers.Type: GrantFiled: January 2, 1990Date of Patent: September 10, 1991Assignee: Hewlett-Packard CompanyInventor: D. Bruce Modesitt
-
Patent number: 4980646Abstract: Disclosed is a container holding a partially conductive ionic fluid with a flexible tactile surface covering the fluid and sealing the container. Along the bottom of the container a series of parallel conductors are located with the farthest spaced apart conductors being connected to a voltage source. Measurements of changes in voltages between individual pairs of conductors will provide an indication of any localized deformation of the flexible tactile surface. Such a tactile sensor can be utilized in any device where an electrical output is desired which is indicative of the surface or surface characteristics of the object to be contacted.Type: GrantFiled: March 30, 1988Date of Patent: December 25, 1990Assignee: The Trustees of the University of PennsylvaniaInventor: Jay N. Zemel
-
Patent number: 4980626Abstract: A robotic end effector and operation protocol provide for a reliable grasp of a target object irrespective of the target's contours. A robotic hand 30 includes a plurality of jointed fingers 31-34, one of which, like a thumb 31, is in opposed relation to the other. Each finger comprises at least two jointed sections, and is provided with reflective proximity sensors, one on the inner surface of each finger section. Each proximity sensor comprises a transmitter of a beam of radiant energy and a receiver for receiving reflections of the transmitted energy when reflected by a target object. On the fingers opposed to the thumb, the proximity sensors 41 on the outermost finger sections are aligned in an outer sensor array and the sensors 42 on the intermediate finger sections and sensors 43 on the innermost finger sections are similarly arranged to form an intermediate sensor array and an inner sensor array, respectively.Type: GrantFiled: August 10, 1989Date of Patent: December 25, 1990Assignee: The United States of America as represented by the Administrator of the National Aeronautics and Space AdministrationInventors: Clifford W. Hess, Larry C. H. Li
-
Patent number: 4950987Abstract: The present invention discloses a single sensor performing both tactile and proximity sensing. The sensor includes a magnetic field generator, a magnetic field sensor for sensing changes in the magnetic field in response to an object changing position with respect to the field to provide proximity sensing. By providing for relative movement between the response to the object touching the sensor, tactile sensing is provided.Type: GrantFiled: March 3, 1989Date of Patent: August 21, 1990Assignee: University of North Carolina at CharlotteInventors: John M. Vranish, Pradeep K. Yadav
-
Patent number: 4949321Abstract: An ultrasound echo profile sensor for use as a tactile sensor, having an ultrasound measuring head containing a transmitter and a receiver and also having an entrained reference reflector by means of which the current speed of sound of the ambient air can be identified. The respective distance of the tactile sensor from a sensor subject can be correctly measured independently of the variable speed of sound of the ambient air because a reference echo caused by the reference reflector can be discriminated from situation echoes on the basis of its known, proximate position. The reference reflector, whose distance from the ultrasound receiver is constant in the reference case, is arranged such that the distance between the ultrasound receiver and the reference reflector changes in a characteristic way given tactile contact between a sensor head and the sensor subject, particularly a workpiece.Type: GrantFiled: September 30, 1987Date of Patent: August 14, 1990Assignee: Siemens AktiengesellschaftInventor: Valentin Magori
-
Patent number: 4942620Abstract: A high temperature sensor for use with an induced vibration dynamic touch sensor system comprising a pad element adapted for sliding contact with an object so as to induce vibrations in the pad, a mechanical coupling means comprising a stiff, substantially straight member for coupling the pad to a transducer assembly, the transducer assembly for converting the vibrations into electrical signals. The electrical signals are processed to produce a normalized spectral signature characteristic of the size and shape of the object, and the sizes and shapes and nature of its surface features. A pattern vector is extracted from the spectral signature and subjected to discriminant analysis to classify and recognize the object.Type: GrantFiled: May 31, 1988Date of Patent: July 17, 1990Assignee: University of FloridaInventor: Gale E. Nevill, Jr.
-
Patent number: 4908574Abstract: A sensor for sensing and quantifying the conformity of a workpiece surface contour to a predetermined design contour. The sensor consists of an array of capacitor elements on a surface having the negative image of the predetermined design contour, against which the workpiece is mated. In operation, each of the capacitor elements and the workpiece are connected to a corresponding oscillator circuit so that the frequency of each circuit is a function of the capacitance between the individual plate element and the workpiece, while the capacitance is a function of the distance between the individual plate element and the workpiece. Hence the overall output of the circuits is a function of the conformity of the workpiece surface contour to the contour or topology of the sensor surface.Type: GrantFiled: July 29, 1988Date of Patent: March 13, 1990Assignee: Extrude Hone CorporationInventors: Lawrence J. Rhoades, Donald Risko, Ralph L. Resnick
-
Patent number: 4886361Abstract: A description is given of a tactile sensor for measuring force with fine resolution which is based on a network of glass fiber optic interferometers. The counting of interference fringes as readout method makes available an inherently digital (incremental) output signal which allows the measured signal to be passed on optically free of interference to evaluation electronics and to data processing. In conjunction with a suitable elastic skin to accept the glass fiber network, the small glass fiber diameter (125 .mu.) and the user of the strain measurement technique employing glass fiber interferometers should make possible a tactile sensor comparable with the human sense of touch. The fields of application for such tactile sensors are robotics, prostheses and advanced controls at the man-machine interface.Type: GrantFiled: May 12, 1988Date of Patent: December 12, 1989Assignee: Versuchsanstalt fur LuftInventor: Norbert Furstenau
-
Patent number: 4878705Abstract: The disclosure relates to a gripper arm for use in conjunction with a robotic arm for gripping a tool wherein the tool is retained in the gripper arm until a positive action signal and lack of pressure from the tool are simultaneously provided. The tool cannot be discharged from the gripper arm under other conditions including power loss to the robotic device.Type: GrantFiled: March 18, 1988Date of Patent: November 7, 1989Assignee: Texas Instruments IncorporatedInventor: David C. Arnquist
-
Patent number: 4861087Abstract: The offset mechanical gripper is for mounting on a robot for grasping an electrical component. Two pairs of fingers are offset on L-shaped arms. The fingers in a pickup pair move toward and away from a fixed pickup plane to always hold grasped components centered on the plane. The first pair of arms is mounted on a first carriage and the second pair of arms is mounted on a second carriage so that spacing between the carriages controls spacing between the pairs of fingers. The pairs of fingers are each operated by a fluid cylinder, with adjustment of travel and sensing of non-grasp.Type: GrantFiled: July 5, 1988Date of Patent: August 29, 1989Assignee: Hughes Aircraft CompanyInventor: Joon Park
-
Patent number: 4839512Abstract: Apparatus for sensing locations and magnitudes of forces applied on a surface includes a grid comprised of energy input devices running in one direction and energy output devices running another direction with the input and output devices crossing each other. Transducers that meter energy from the input devices to the output devices as a function of the magnitude of forces applied thereon are positioned at the intersections of the input devices with the output devices. Interrogation apparatus is also included, along with energy output detectors and measuring devices, for sensing and determining locations, as well as magnitudes, of forces applied on the grid. Several embodiments of energy input and energy output devices are shown and described, as well as several embodiments of transducers.Type: GrantFiled: January 27, 1987Date of Patent: June 13, 1989Assignee: Tactilitics, Inc.Inventor: Richard P. Speck
-
Patent number: 4819978Abstract: A grasp force sensor for robotic hands is disclosed. A flexible block is located in the base of each claw through which the grasp force is exerted. The block yields minute parallelogram deflection when the claws are subjected to grasping forces. A parallelogram deflection closely resembles pure translational deflection, whereby the claws remain in substantial alignment with each other during grasping. Strain gauge transducers supply signals which provide precise knowledge of and control over grasp forces.Type: GrantFiled: June 27, 1986Date of Patent: April 11, 1989Assignee: California Institute of TechnologyInventors: Victor D. Scheinman, Antal K. Bejczy, Howard C. Primus
-
Patent number: 4817440Abstract: A tactile sensor which simultaneously provides a compliant interface between a support element and an object to be handled (i.e., a robot gripper in a delicate component), and identifies the contact force and the contact pattern between the object and the support element.Type: GrantFiled: June 9, 1987Date of Patent: April 4, 1989Assignee: The Board of Governors for Higher Education, State of Rhode Island and Providence PlantationsInventor: Mark Curtin
-
Patent number: 4816730Abstract: An apparatus for handling and moving a plurality of objects such as containers each holding a sample to be analyzed by an analytical instrument contains the following:a. a robotic arm assembly capable of vertical, horizontal and rotational movement;b. gripper mechanism for holding objects attach to the arm of the assembly;c. stepper motors for driving the robotic arm assembly;d. a power source that drives the stepper motors electrically coupled to the motors;e. a sensing system with a feedback loop that monitors the movement of arm assembly, the objects being manipulated by the arm assembly and the force applied to the objects by the gripper mechanism;f. a computer electrically interfaced with the linear stepper motors, the power means and the sensing system with the feedback loop andg. a means for providing operating data input to the computer;operating data is provided to the computer for operation of the autosampler and the autosampler moves the object as directed.Type: GrantFiled: December 22, 1986Date of Patent: March 28, 1989Assignee: E. I. Du Pont de Nemours and CompanyInventors: Robert E. Wilhelm, Jr., John R. Reader, Jr., Kenneth W. Gormley, Sr., Kendall B. Hendrick, Richard J. Celeste
-
Patent number: 4814562Abstract: A pressure sensor includes at least one light conducting opening extending generally parallel to a pressure receiving face of a deformable body and a light emitting and a light receiving device at opposite ends of the light transmitting opening. A cross sectional area of the light transmitting opening, and correspondingly the light transmitting capability of the opening, vary in response to changing pressures applied to the pressure receiving face, which is determined by the light receiver. A measuring circuit for the light receiver is also provided.Type: GrantFiled: November 13, 1987Date of Patent: March 21, 1989Assignee: University of ArkansasInventor: Marcus C. Langston
-
Patent number: 4766389Abstract: An arrangement for a tactile sensing system involved in the determination of object shape, contour, orientation and detection of slip finding one use in real time control of robotically manipulated tools. The sensor uses contact between the object and a gripper upon which the sensor is disposed wherein the object surface forms one plate of the sensing electrode.Type: GrantFiled: September 3, 1986Date of Patent: August 23, 1988Assignee: Extrude Hone CorporationInventors: Lawrence J. Rhoades, Donald Risko, Ralph L. Resnick
-
Patent number: 4756066Abstract: The present invention relates to a method and apparatus for inserting the gerotor oil pump assembly into the housing of an engine. The present invention provides a first jaw and a second jaw which allow the gear assembly to be picked up by the robot or the like while at the same time decreasing the possibility of lock up between the primary outer and secondary inner gears of the gerotor assembly.Type: GrantFiled: June 1, 1987Date of Patent: July 12, 1988Assignee: General Motors CorporationInventors: John W. Scharlacken, Samuel Bergamo
-
Patent number: 4748672Abstract: An induced vibration dynamic touch sensor comprises a compliant membrane adapted for sliding contact with an object so as to induce vibrations in the membrane, and a transducer assembly for converting the vibrations into electrical signals. The electrical signals are processed to produce a normalized spectral signature characteristic of the size and shape of the object, and the sizes and shapes and nature of its surface features. A pattern vector is extracted from the spectral signature and subjected to discriminant analysis to classify and recognize the object. The invention is capable of discriminating between objects differing in diameter by as little as 1/32 inches and differing in spacing by as little as 0.01 inches.Type: GrantFiled: April 16, 1985Date of Patent: May 31, 1988Assignee: University of FloridaInventors: Gale E. Nevill, Jr., Robert W. Patterson
-
Patent number: 4745812Abstract: The sensitive high resolution microminiature tactile sensor comprises an array of unique micromachined bossed silicon transducer cells in conjunction with requisite electrical circuitry and components, which collectively provide an ability to sense torque by detecting both normal and lateral applied loads, thereby opening a new frontier in tactile sensing. One preferred embodiment comprises a four column by four row array arrangement providing sixteen unique bossed closely spaced silicon diaphragm tactile transducer elements or sensors fabricated from a silicon body member. Collectively the close spacing between the microminiature tactile sensing elements approaches the resolution of the human hand. Electrical signal information from sensor-incorporated internal and external related circuitry components can be analyzed via computer devices to yield specific loading characteristics on the sensor surface. The upper surface of the transducer cell array is protectively covered with a thin polymer layer.Type: GrantFiled: March 25, 1987Date of Patent: May 24, 1988Assignee: The United States of America as represented by the Secretary of the ArmyInventors: Charles A. Amazeen, Steven S. Bishop
-
Patent number: 4746894Abstract: Objects contacted by mechanical fingers cause shunts that are touched at a position to contact resistance strips. Sensing resistance remaining between the shunt contact and one end of the resistance strip indicates position of contact along the finger. Shapes and alignments of objects are sensed by comparing positional information along several fingers.Type: GrantFiled: January 21, 1986Date of Patent: May 24, 1988Inventor: Maurice Zeldman
-
Patent number: 4738583Abstract: A space spider crane 15 is provided for the movement, placement, and/or assembly of various components on or in the vicinity of a space structure 120. Space spider crane 15 is comprised of a small central body 16 to which manipulators 24 and legs 25 are attached. The legs 25 are equipped with constant pressure gripping end effectors 29 to safely grip space structure 120. Walking by legs 25 or repairing and placing by the manipulators 24 may be controlled either by computer software 140 or a remotely situated human operator 135, who maintains visual contact with the space spider crane via television cameras 22 located at strategic positions on space spider crane 15. One possible walking program consists of a parallel motion walking program that results in small central body 16 alternatively leaning forward and backward relative to end effectors 29.Type: GrantFiled: September 30, 1986Date of Patent: April 19, 1988Assignee: The United States of America as represented by the Administrator of the National Aeronautics and Space AdministrationInventors: Ian O. Macconochie, Martin M. Mikulas, Jr., Jack E. Pennington, Rebecca L. Kinkead, Charles F. Bryan, Jr.