On Control Signals for Multi-Dimensional Time

Abstract Top-down attention, controlled by frontal cortical areas, is a key component of cognitive operations. How different neurotransmitters and neuromodulators flexibly change the cellular and network interactions with attention demands remains poorly understood. While acetylcholine and dopamine are critically involved, glutamatergic receptors have been proposed to play important roles. To understand their contribution to attentional signals, we investigated how ionotropic glutamatergic receptors in the frontal eye field (FEF) of male macaques contribute to neuronal excitability and attentional control signals in different cell types. Broad-spiking and narrow-spiking cells both required N-methyl-D-aspartic acid and α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor activation for normal excitability, thereby affecting ongoing or stimulus-driven activity. However, attentional control signals were not dependent on either glutamatergic receptor type in broad- or narrow-spiking cells. A further subdivision of cell types into different functional types using cluster-analysis based on spike waveforms and spiking characteristics did not change the conclusions. This can be explained by a model where local blockade of specific ionotropic receptors is compensated by cell embedding in large-scale networks. It sets the glutamatergic system apart from the cholinergic system in FEF and demonstrates that a reduction in excitability is not sufficient to induce a reduction in attentional control signals.

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SpecTalk: Conforming IoT Implementations to Sensor Specifications

Sensors ◽

10.3390/s21165260 ◽

2021 ◽

Vol 21 (16) ◽

pp. 5260

Author(s):

Yi-Bing Lin ◽

Sheng-Lin Chou

Keyword(s):

Large Scale ◽

Application Programming Interface ◽

Signal Frequency ◽

Visual Test ◽

Gray Area ◽

Control Signals ◽

Information And Communication ◽

Monitoring Camera ◽

Self Test ◽

Iot Devices

Due to the fast evolution of Sensor and Internet of Things (IoT) technologies, several large-scale smart city applications have been commercially developed in recent years. In these developments, the contracts are often disputed in the acceptance due to the fact that the contract specification is not clear, resulting in a great deal of discussion of the gray area. Such disputes often occur in the acceptance processes of smart buildings, mainly because most intelligent building systems are expensive and the operations of the sub-systems are very complex. This paper proposes SpecTalk, a platform that automatically generates the code to conform IoT applications to the Taiwan Association of Information and Communication Standards (TAICS) specifications. SpecTalk generates a program to accommodate the application programming interface of the IoT devices under test (DUTs). Then, the devices can be tested by SpecTalk following the TAICS data formats. We describe three types of tests: self-test, mutual-test, and visual test. A self-test involves the sensors and the actuators of the same DUT. A mutual-test involves the sensors and the actuators of different DUTs. A visual-test uses a monitoring camera to investigate the actuators of multiple DUTs. We conducted these types of tests in commercially deployed applications of smart campus constructions. Our experiments in the tests proved that SpecTalk is feasible and can effectively conform IoT implementations to TACIS specifications. We also propose a simple analytic model to select the frequency of the control signals for the input patterns in a SpecTalk test. Our study indicates that it is appropriate to select the control signal frequency, such that the inter-arrival time between two control signals is larger than 10 times the activation delay of the DUT.

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Time-Delay Correlation Analysis of Wide-Area PMU Control Signals in Complex Communication Scenarios

2021 IEEE/IAS 57th Industrial and Commercial Power Systems Technical Conference (I&CPS) ◽

10.1109/icps51807.2021.9416638 ◽

2021 ◽

Author(s):

Jianbo Yi ◽

Zhendong Liu ◽

Zhenyuan Zhang ◽

Jian Li ◽

Qi Huang

Keyword(s):

Time Delay ◽

Correlation Analysis ◽

Wide Area ◽

Control Signals

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Algorithms for Direct Digital Transmission of Control Signals Through the Vehicle's On-Board DC Network

2021 International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM) ◽

10.1109/icieam51226.2021.9446370 ◽

2021 ◽

Author(s):

Sergey Vasyukov ◽

Alexander Macovey ◽

Alexander Tronnikov

Keyword(s):

Digital Transmission ◽

Control Signals

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DESIGN, PREPRODUCTION, AND PERFORMANCE OF THE CDF RUN IIB SILICON DETECTOR

International Journal of Modern Physics A ◽

10.1142/s0217751x05027692 ◽

2005 ◽

Vol 20 (16) ◽

pp. 3811-3814

Author(s):

◽

PAUL LUJAN

Keyword(s):

Building Block ◽

Silicon Detector ◽

Radiation Hardness ◽

Control Signals ◽

Lightweight Structure ◽

And Performance ◽

Performance Results ◽

And Control ◽

Radiation Hard ◽

Detector Design

A new silicon detector was designed by the CDF collaboration for Run IIb of the Tevatron at Fermilab. The main building block of the new detector is a "supermodule" or "stave", an innovative, compact and lightweight structure of several readout hybrids and sensors with a bus cable running directly underneath the sensors to carry power, data, and control signals to and from the hybrids. The hybrids use a new, radiation-hard readout chip, the SVX4 chip. A number of SVX4 chips, readout hybrids, sensors, and supermodules were produced and tested in preproduction. The performance (including radiation-hardness) and yield of these components met or exceeded all design goals. The detector design goals, solutions, and performance results are presented.

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Dorsal Anterior Cingulate, Medial Superior Frontal Cortex, and Anterior Insula Show Performance Reporting-Related Late Task Control Signals

Cerebral Cortex ◽

10.1093/cercor/bhw053 ◽

2016 ◽

pp. bhw053 ◽

Cited By ~ 4

Author(s):

Maital Neta ◽

Steven M. Nelson ◽

Steven E. Petersen

Keyword(s):

Frontal Cortex ◽

Anterior Insula ◽

Anterior Cingulate ◽

Task Control ◽

Performance Reporting ◽

Control Signals ◽

Superior Frontal Cortex

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Estimating airflow rates in air-handling units from actuator control signals

Building and Environment ◽

10.1016/j.buildenv.2005.05.027 ◽

2006 ◽

Vol 41 (10) ◽

pp. 1291-1298 ◽

Cited By ~ 10

Author(s):

Huiling Tan ◽

Arthur Dexter

Keyword(s):

Control Signals ◽

Air Handling Units ◽

Actuator Control

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A New Automatic Demultiplexing Method for NRZ-OOK Polarization-Division Multiplexed System

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.204-210.1636 ◽

2011 ◽

Vol 204-210 ◽

pp. 1636-1639

Author(s):

Qi Jing ◽

Yong Qing Huang ◽

Yang An Zhang ◽

Ming Lun Zhang ◽

Li Dong Mei

Keyword(s):

Radio Frequency ◽

Direct Current ◽

Beam Splitter ◽

System Simulation ◽

Polarization Controller ◽

Polarization Beam Splitter ◽

Optical Polarization ◽

Control Signals ◽

Detection Window

A new automatic optical polarization demultiplexing method for NRZ-OOK polarization division multiplexed (PDM) system is proposed. The detected power differences of both the direct current (DC) and the radio frequency (RF) are used as control signals which are sensitive to the angles between the polarization controller (PC) and the polarization beam splitter (PBS). The characteristics of those control signals are thoroughly analyzed, and the best RF detection window is calculated out through system simulation.

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