11,329 research outputs found
Shared ATM networks - the antitrust dimension
Automated tellers ; Payment systems
Neural network modeling of nonlinear systems based on Volterra series extension of a linear model
A Volterra series approach was applied to the identification of nonlinear systems which are described by a neural network model. A procedure is outlined by which a mathematical model can be developed from experimental data obtained from the network structure. Applications of the results to the control of robotic systems are discussed
Comparison of joint space versus task force load distribution optimization for a multiarm manipulator system
It is often proposed that the redundancy in choosing a force distribution for multiple arms grasping a single object should be handled by minimizing a quadratic performance index. The performance index may be formulated in terms of joint torques or in terms of the Cartesian space force/torque applied to the body by the grippers. The former seeks to minimize power consumption while the latter minimizes body stresses. Because the cost functions are related to each other by a joint angle dependent transformation on the weight matrix, it might be argued that either method tends to reduce power consumption, but clearly the joint space minimization is optimal. A comparison of these two options is presented with consideration given to computational cost and power consumption. Simulation results using a two arm robot system are presented to show the savings realized by employing the joint space optimization. These savings are offset by additional complexity, computation time and in some cases processor power consumption
Student understanding of the Boltzmann factor
We present results of our investigation into student understanding of the
physical significance and utility of the Boltzmann factor in several simple
models. We identify various justifications, both correct and incorrect, that
students use when answering written questions that require application of the
Boltzmann factor. Results from written data as well as teaching interviews
suggest that many students can neither recognize situations in which the
Boltzmann factor is applicable, nor articulate the physical significance of the
Boltzmann factor as an expression for multiplicity, a fundamental quantity of
statistical mechanics. The specific student difficulties seen in the written
data led us to develop a guided-inquiry tutorial activity, centered around the
derivation of the Boltzmann factor, for use in undergraduate statistical
mechanics courses. We report on the development process of our tutorial,
including data from teaching interviews and classroom observations on student
discussions about the Boltzmann factor and its derivation during the tutorial
development process. This additional information informed modifications that
improved students' abilities to complete the tutorial during the allowed class
time without sacrificing the effectiveness as we have measured it. These data
also show an increase in students' appreciation of the origin and significance
of the Boltzmann factor during the student discussions. Our findings provide
evidence that working in groups to better understand the physical origins of
the canonical probability distribution helps students gain a better
understanding of when the Boltzmann factor is applicable and how to use it
appropriately in answering relevant questions
Telomere length covaries with personality in wild brown trout
The prevalence of consistent among-individual differences in behaviour, or personality, makes adaptive sense if individuals differ in stable state variables that shift the balance between the costs and benefits of their behavioural decisions. These differences may give rise to both individual differences in, and covariance among, behaviours that influence an individual's exposure to risks. We here study the link between behaviour and a candidate state variable previously overlooked in the study of state-dependent personality variation: telomere length. Telomeres are the protective endcaps of chromosomes and their erosion with age is thought to play a crucial role in regulating organismal senescence and intrinsic lifespan. Following evidence that shorter telomeres may reduce the lifespan of animals in a wide range of taxa, we predict individuals with shorter telomeres to behave more boldly and aggressively. In order to test this, we measured telomere length and behaviour in wild juvenile brown trout (Salmo trutta). We found individuals with shorter fin telomeres to behave consistently more boldly and aggressively under controlled conditions in the laboratory. No such relationship was found with muscle telomere length 3–4 months after the behavioural assays. We suggest that telomere dynamics are an important factor integrating personality traits with other state variables thought to be important in the regulation of behaviour, such as metabolism, disease resistance and growth
Energetics of Protein-DNA Interactions
Protein-DNA interactions are vital for many processes in living cells,
especially transcriptional regulation and DNA modification. To further our
understanding of these important processes on the microscopic level, it is
necessary that theoretical models describe the macromolecular interaction
energetics accurately. While several methods have been proposed, there has not
been a careful comparison of how well the different methods are able to predict
biologically important quantities such as the correct DNA binding sequence,
total binding free energy, and free energy changes caused by DNA mutation. In
addition to carrying out the comparison, we present two important theoretical
models developed initially in protein folding that have not yet been tried on
protein-DNA interactions. In the process, we find that the results of these
knowledge-based potentials show a strong dependence on the interaction distance
and the derivation method. Finally, we present a knowledge-based potential that
gives comparable or superior results to the best of the other methods,
including the molecular mechanics force field AMBER99
- …