Kinematics of the six-degree-of-freedom force-reflecting Kraft Master

Presented here are kinematic equations for a six degree of freedom force-reflecting hand controller. The forward kinematics solution is developed and shown in simplified form. The Jacobian matrix, which uses terms from the forward kinematics solution, is derived. Both of these kinematic solutions require joint angle inputs. A calibration method is presented to determine the hand controller joint angles given the respective potentiometer readings. The kinematic relationship describing the mechanical coupling between the hand and controller shoulder and elbow joints is given. These kinematic equations may be used in an algorithm to control the hand controller as a telerobotic system component. The purpose of the hand controller is two-fold: operator commands to the telerobotic system are entered using the hand controller, and contact forces and moments from the task are reflected to the operator via the hand controller

The double universal joint wrist on a manipulator: Solution of inverse position kinematics and singularity analysis

This paper presents three methods to solve the inverse position kinematics position problem of the double universal joint attached to a manipulator: (1) an analytical solution for two specific cases; (2) an approximate closed form solution based on ignoring the wrist offset; and (3) an iterative method which repeats closed form position and orientation calculations until the solution is achieved. Several manipulators are used to demonstrate the solution methods: cartesian, cylindrical, spherical, and an anthropomorphic articulated arm, based on the Flight Telerobotic Servicer (FTS) arm. A singularity analysis is presented for the double universal joint wrist attached to the above manipulator arms. While the double universal joint wrist standing alone is singularity-free in orientation, the singularity analysis indicates the presence of coupled position/orientation singularities of the spherical and articulated manipulators with the wrist. The cartesian and cylindrical manipulators with the double universal joint wrist were found to be singularity-free. The methods of this paper can be implemented in a real-time controller for manipulators with the double universal joint wrist. Such mechanically dextrous systems could be used in telerobotic and industrial applications, but further work is required to avoid the singularities

Kinematic equations for control of the redundant eight-degree-of-freedom advanced research manipulator 2

The forward position and velocity kinematics for the redundant eight-degree-of-freedom Advanced Research Manipulator 2 (ARM2) are presented. Inverse position and velocity kinematic solutions are also presented. The approach in this paper is to specify two of the unknowns and solve for the remaining six unknowns. Two unknowns can be specified with two restrictions. First, the elbow joint angle and rate cannot be specified because they are known from the end-effector position and velocity. Second, one unknown must be specified from the four-jointed wrist, and the second from joints that translate the wrist, elbow joint excluded. There are eight solutions to the inverse position problem. The inverse velocity solution is unique, assuming the Jacobian matrix is not singular. A discussion of singularities is based on specifying two joint rates and analyzing the reduced Jacobian matrix. When this matrix is singular, the generalized inverse may be used as an alternate solution. Computer simulations were developed to verify the equations. Examples demonstrate agreement between forward and inverse solutions

Forward and inverse kinematics of double universal joint robot wrists

A robot wrist consisting of two universal joints can eliminate the wrist singularity problem found on many individual robots. Forward and inverse position and velocity kinematics are presented for such a wrist having three degrees of freedom. Denavit-Hartenberg parameters are derived to find the transforms required for the kinematic equations. The Omni-Wrist, a commercial double universal joint robot wrist, is studied in detail. There are four levels of kinematic parameters identified for this wrist; three forward and three inverse maps are presented for both position and velocity. These equations relate the hand coordinate frame to the wrist base frame. They are sufficient for control of the wrist standing alone. When the wrist is attached to a manipulator arm; the offset between the two universal joints complicates the solution of the overall kinematics problem. All wrist coordinate frame origins are not coincident, which prevents decoupling of position and orientation for manipulator inverse kinematics

Linkages Between Grade Point Average and Student Ratings

In order to better understand the potential influence of high school students’ grades on how they rate their teachers and schools, we explored the relationship between student grade point average and student ratings of teacher and school effectiveness in 370 classes taught by 230 instructors with over 6,000 students in grades 9–12 in an Intermountain West school district. Teachers were evaluated with an 18-item student survey. Students also rated their schools with six additional items. The performance measure was the grade point average (GPA) for the quarter in which students evaluated their teachers and schools. ANOVAs showed that both year in school and GPA were positively linked with ratings of teacher effectiveness and ratings of school experiences. Seniors were more positively disposed toward their teachers and school experiences than students at lower grade levels. Most of the ratings of specific items on the teacher effectiveness and school-experience scales were significantly, though not strongly, correlated with GPAs. We discuss implications and suggestions for future research

High-Performing Students with Low Critical Thinking Skills

This study focused on selected cognitive measures, work habits, and performance patterns of students with low critical thinking skills who achieved high grades in a large entry-level course. The high-performing low critical thinkers were compared on all target variables with both low critical thinkers who achieved low grades in the course and high critical thinkers who achieved high grades. The findings point to particular work habits that instructors could promote in helping low critical thinkers improve their course performance

Automation and Robotics for Space-Based Systems, 1991

The purpose of this in-house workshop was to assess the state-of-the-art of automation and robotics for space operations from an LaRC perspective and to identify areas of opportunity for future research. Over half of the presentations came from the Automation Technology Branch, covering telerobotic control, extravehicular activity (EVA) and intra-vehicular activity (IVA) robotics, hand controllers for teleoperation, sensors, neural networks, and automated structural assembly, all applied to space missions. Other talks covered the Remote Manipulator System (RMS) active damping augmentation, space crane work, modeling, simulation, and control of large, flexible space manipulators, and virtual passive controller designs for space robots

Kinematic modeling of a double octahedral Variable Geometry Truss (VGT) as an extensible gimbal

This paper presents the complete forward and inverse kinematics solutions for control of the three degree-of-freedom (DOF) double octahedral variable geometry truss (VGT) module as an extensible gimbal. A VGT is a truss structure partially comprised of linearly actuated members. A VGT can be used as joints in a large, lightweight, high load-bearing manipulator for earth- and space-based remote operations, plus industrial applications. The results have been used to control the NASA VGT hardware as an extensible gimbal, demonstrating the capability of this device to be a joint in a VGT-based manipulator. This work is an integral part of a VGT-based manipulator design, simulation, and control tool

Fertilizer requirements of unproductive soils

Citation: Nichols, Roscoe Townley. Pruning of orchard trees. Senior thesis, Kansas State Agricultural College, 1898.Morse Department of Special CollectionsIntroduction: Soils are unproductive for many reasons, among which are lack of moisture, absence of bacteria, excess of soluable salts, and some of the essential elements to plant growth. It is of this last requisite that we treat in this paper. Among the necessary chemical elements for plant growth, those that are most liable to be deficient in available form are: N. P. and K. Some soils are lacking in lime as is shown by their acidity. Since we are unable to tell the elements that are deficient in an unproductive soil by chemical analysis, we have to determine them by experimental work. A new method for determining the unproductiveness of soils is by the wire basket method. This is the method that we have used in conducting this experiment. This method is quicker than field tests and promises to be practical. The soil used in this experiment was taken from one of the poorer fields on the College Farm. It was put in good condition, different fertilizers added, placed in wire baskets, and five grains of wheat planted in each basket. After running the experiment for about four weeks the fertilizer requirement was determined by the growth of the wheat and the amount of moisture used. The baskets used were about three inches deep and three inches in diameter. They were filled with soil and then covered with paroffin. After the wheat was up the tops were sealed with paroffin and paper so as to prevent evaporizion

Chapter 39: Transient Event Notification with VOEvent

Events and transients are becoming more and more important in modern astronomy, for example gamma-ray bursts, supernovae, microlensing, and so on. We present the VOEvent infrastructure, for communicating observations of immediate astronomical events with the intention of stimulating rapid and automated follow up from robotic telescopes. The information packet itself will be described, as well as the emerging network that allows authoring, publication, subscription, and global identifiers. VOEvent is a general, standard, flexible, peer-to-peer, robust, secure, scalable solution for this infrastructure: a vision of multiple federated event streams shared by peers and evaluated by decision support