590 research outputs found
A maximum principle for progressive optimal control of mean-filed forward-backward stochastic system involving random jumps and impulse controls
In this paper, we study an optimal control problem of a mean-field
forward-backward stochastic system with random jumps in progressive structure,
where both regular and singular controls are considered in our formula. In
virtue of the variational technology, the related stochastic maximum principle
(SMP) has been obtained, and it is essentially different from that in the
classical predictable structure. Specifically, there are three parts in our
SMP, i.e. continuous part, jump part and impulse part, and they are
respectively used to characterize the characteristics of the optimal controls
at continuous time, jump time and impulse time. This shows that the progressive
structure can more accurately describe the characteristics of the optimal
control at the jump time. We also give two linear-quadratic (LQ) examples to
show the significance of our results
The Optimization of Jaw Crusher with Complex Motion Aimed at Reducing Stroke Feature Value of Its Outlet
Volume 8 Issue 1 (January 201
Flow Patterns and Reaction Rate Estimation of RedOx Electrolyte in the Presence of Natural Convection
Transport processes in an upright, concentric, annular, electrochemical reactor filled with RedOx electrolyte solution are studied experimentally and theoretically. The electrodes form the two vertical surfaces of the reactor. The theoretical calculations consist of the solution of the Navier-Stokes and the Nernst-Planck equations accounting for species\u27 diffusion, migration, convection, and electrochemical reactions on the electrodes\u27 surfaces as a function of the difference in the electrodes\u27 potentials and the average concentration of the electrolyte. Since the convection is driven by density gradients, the momentum and mass transport equations are strongly coupled. In spite of the small dimensions (mm-scale) of the reactor, the current transmitted through the electrolyte is significantly enhanced by natural convection. The current is measured as a function of the difference in the electrodes\u27 potentials. To obtain the reaction rate constants, an inverse problem is solved and the reaction rate constants are determined by minimizing the discrepancy between theoretical predictions and experimental observations. As an example, we study the reversible electrochemical reaction Fe++++e- = Fe++ on platinum electrodes. The paper demonstrates that natural convection plays a significant role even when the reactor’s dimensions are on the millimeter scale and that it is possible to predict reaction rate constants while accounting for significant mass transfer effects
Thermally-actuated, phase change flow control for microfluidic systems
An easy to implement, thermally-actuated, noninvasive method for flow control in microfluidic devices is described. This technique takes advantage of the phase change of the working liquid itself—the freezing and melting of a portion of a liquid slug—to noninvasively close and open flow passages (referred to as a phase change valve). The valve was designed for use in a miniature diagnostic system for detecting pathogens in oral fluids at the point of care. The paper describes the modeling, construction, and characteristics of the valve. The experimental results favorably agree with theoretical predictions. In addition, the paper demonstrates the use of the phase change valves for flow control, sample metering and distribution into multiple analysis paths, sealing of a polymerase chain reaction (PCR) chamber, and sample introduction into and withdrawal from a closed loop. The phase change valve is electronically addressable, does not require any moving parts, introduces only minimal dead volume, is leakage and contamination free, and is biocompatible
Ground state degeneracy of the Ising cage-net model
The Ising cage-net model, first proposed in Phys. Rev. X 9, 021010 (2019), is
a representative type I fracton model with nontrivial non-abelian features. In
this paper, we calculate the ground state degeneracy of this model and find
that, even though it follows a similar coupled layer structure as the X-cube
model, the Ising cage-net model cannot be "foliated" in the same sense as
X-cube as defined in Phys. Rev. X 8, 031051 (2018). A more generalized notion
of "foliation'' is hence needed to understand the renormalization group
transformation of the Ising cage-net model. The calculation is done using an
operator algebra approach that we develop in this paper, and we demonstrate its
validity through a series of examples
Characterization and comparative profiling of the small RNA transcriptomes in two phases of locust
High-throughput sequencing of the small RNA transcriptome of locust reveals differences in post-transcriptional regulation between solitary and swarming phases and provides insights into the evolution of insect small RNAs
A disposable microfluidic cassette for DNA amplification and detection
A pneumatically driven, disposable, microfluidic cassette comprised of a polymerase chain reaction (PCR) thermal cycler, an incubation chamber to label PCR amplicons with upconverting phosphor (UPT) reporter particles, conduits, temperature-activated, normally closed hydrogel valves, and a lateral flow strip, was constructed and tested. The hydrogel valves, which were opened and closed with the aid of electrically controlled thermoelectric units, provided a simple means to seal the PCR reactor and suppress bubble formation. The hydrogel-based flow control was electronically addressable, leakage-free, and biocompatible. To test the device, a solution laden with genomic DNA isolated from B. cereus was introduced into the microfluidic cassette and a specific 305 bp fragment was amplified. The PCR amplicons were labelled with the phosphor (UPT) reporter particles, applied to the lateral flow strip, bound to pre-immobilized ligands, and detected with an IR laser that scanned the lateral flow strip and excited the phosphor (UPT) particles that, in turn, emitted light in the visible spectrum. The UPT particles do not bleach, they provide a permanent record, and they readily facilitate the filtering of background noise. The cassette described herein will be used for rapid testing at the point of care
- …