• 제목/요약/키워드: Single master system

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Study on a Dynamic master system for Controller Area Network

  • Won, Ji-Woon;Hong, Won-Kee;Lee, Yong-Doo
    • 한국정보기술응용학회:학술대회논문집
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    • 한국정보기술응용학회 2005년도 6th 2005 International Conference on Computers, Communications and System
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    • pp.147-151
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    • 2005
  • CAN(Controller Area Network) is a simple and efficient network system for real time control and measurement. As it is not only good at error detection but also strong in electromagnetic interference, CAN has been widely used all over the industries. Basically, CAN needs a master node in charge of sensor data collection, node scheduling for data transmission to a monitoring system and error detection. According to the number of mater nodes, the CAN system is classified into two type of master system. One is a single master system that has only one master node and the other is a multi-master system where any sensor node can become a master node depending on the system's conditions. While it has the advantage of its fault tolerance, the multi-master system will suffer form the overall performance degradation when a defect is found in the master node. It is because all sensor nodes pertaining to a defective master node lose their position. Moreover, it is difficult and expensive to implement. For a single master system, the whole system will be broken down when a problem happens to a single master. In this paper, a dynamic master system is presented that there are several sub-master nodes of which basic functions are those of other sensor nodes at ordinary times but dynamically changed to replace the failing master node. An effective scheduling algorithm is also proposed to choose an appropriate node among sub-master nodes, where each sub-master node has its precedence value. The performance of the dynamic master system is experimented and analyzed.

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단일마스터 멀티슬레이브형 텔레로보틱스 수술시스템 개발 (Development of Telerobotic Surgery System with Single-Master Multi-Slave)

  • 황길경;진태석;하시모토히데키
    • 제어로봇시스템학회논문지
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    • 제12권9호
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    • pp.918-925
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    • 2006
  • Medical robotics and computer aided surgery in general, and robotic telesurgery in particular, are promising applications of robotics. In this paper, we shows a novel single-master (PHANTOM based single-master multi-slave telerobotic system) multi-slave system using two parallel mechanism micromanipulators as a slave device. After a general introduction to the systems structure and configuration of telerobotic system, a manipulation control strategy to build the system that human and both manipulators perform the cooperative manipulation, is introduced, followed by its kinematic analysis, mapping method, and experimental results.

Using Central Manifold Theorem in the Analysis of Master-Slave Synchronization Networks

  • Castilho, Jose-Roberto;Carlos Nehemy;Alves, Luiz-Henrique
    • Journal of Communications and Networks
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    • 제6권3호
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    • pp.197-202
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    • 2004
  • This work presents a stability analysis of the synchronous state for one-way master-slave time distribution networks with single star topology. Using bifurcation theory, the dynamical behavior of second-order phase-locked loops employed to extract the synchronous state in each node is analyzed in function of the constitutive parameters. Two usual inputs, the step and the ramp phase perturbations, are supposed to appear in the master node and, in each case, the existence and the stability of the synchronous state are studied. For parameter combinations resulting in non-hyperbolic synchronous states the linear approximation does not provide any information, even about the local behavior of the system. In this case, the center manifold theorem permits the construction of an equivalent vector field representing the asymptotic behavior of the original system in a local neighborhood of these points. Thus, the local stability can be determined.

마스터와 슬레이브에 따른 싱글버스와 다중버스 토폴로지의 성능분석 (Performance Analysis of Single and Multiple Bus Topology Due to Master and Slave)

  • 이국표;윤영섭
    • 대한전자공학회논문지SD
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    • 제45권9호
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    • pp.96-102
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    • 2008
  • SoC의 버스 구조에는 싱글버스와 다중버스로 구분된다. 싱글버스는 전송을 원하는 여러 개의 마스터 중 선택된 하나의 마스터만이 데이터 트랜잭션을 수행할 수 있다. 반면에 다중버스는 개별적으로 동작이 가능한 버스를 브리지를 통해 연결하여 각각의 버스에서 여러 데이터를 병렬 처리할 수 있다. 그러나 현재의 버스에서 다른 버스로 데이터 통신을 수행할 경우, 레이턴시가 급격하게 증가할 수 있다. 게다가, 다중버스의 성능은 마스터의 개수, 슬레이브의 종류 등에 따라 쉽게 바뀔 수가 있다. 이에 본 논문에서는 TLM(Transaction Level Model) 시뮬레이션 방법을 이용하여 마스터의 개수, SDRAM, SRAM, 레지스터 등의 슬레이브 종류에 따른 싱글버스와 다중버스 아키텍처의 성능을 정량적으로 비교 분석하였다.

Exoskeleton 모션 캡처 장치로 다관절 로봇의 원격제어를 하기 위한 FPGA 임베디드 제어기 설계 (Design of Embedded EPGA for Controlling Humanoid Robot Arms Using Exoskeleton Motion Capture System)

  • 이운규;정슬
    • 제어로봇시스템학회논문지
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    • 제13권1호
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    • pp.33-38
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    • 2007
  • In this paper, hardware implementation of interface and control between two robots, the master and the slave robot, are designed. The master robot is the motion capturing device that captures motions of the human operator who wears it. The slave robot is the corresponding humanoid robot arms. Captured motions from the master robot are transferred to the slave robot to follow after the master. All hardware designs such as PID controllers, communications between the master robot, encoder counters, and PWM generators are embedded on a single FPGA chip. Experimental studies are conducted to demonstrate the performance of the FPGA controller design.

CAN 네트워크에서의 동적 마스터 시스템에 관한 연구 (Study on a Dynamic master system for Controller Area Network)

  • 원지운;김태환;홍원기;이용두
    • 한국정보과학회:학술대회논문집
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    • 한국정보과학회 2005년도 가을 학술발표논문집 Vol.32 No.2 (1)
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    • pp.559-561
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    • 2005
  • CAN(Controller Area Network)은 시스템이 간단하고 저렴하게 구현 할 수 있는 필드버스(Field bus)로써 1980년대 독일의 BOSCH사에 의해 자동차 제어용 네트워크로 개발되었고, 실시간 계측제어 능력이 우수하여 산업전반(산업 자동화, 건을 자동화, 의료 장비, 열차, 중장비 차량)에 사용되고 있다. 본 논문에서는 CAN의 단일 마스터 시스템(Single Master System)에서 마스터 노드에 문제가 발생할 때, 전체 시스템이 다운되는 현상을 악기 위해 마스터 노드를 동적으로 변화시키는 동적 마스터 시스템(Dynamic Master System)을 제안하고 기존의 시스템과 비교하여 시스템의 가용성을 알아보았다.

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Stability Enhancement of Four-in-Wheel Motor-Driven Electric Vehicles Using an Electric Differential System

  • Hartani, Kada;Merah, Abdelkader;Draou, Azeddine
    • Journal of Power Electronics
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    • 제15권5호
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    • pp.1244-1255
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    • 2015
  • This paper presents a new multi-machine robust control based on an electric differential system for electric vehicle (EV) applications which is composed of four in-wheel permanent magnet synchronous motors. It is based on a new master-slave direct torque control (DTC) algorithm, which is used for the control of bi-machine traction systems based on a speed model reference adaptive system observer. The use of an electric differential in the design of a new EV constitutes a technological breakthrough. A classical system with a multi-inverter and a multi-machine comprises a three-phase inverter for each machine to be controlled. Another approach consists of only one three-phase inverter for several permanent magnet synchronous machines. The control of multi-machine single-inverter systems is the subject of this study. Several methods have been proposed for the control of multi-machine single-inverter systems. In this study, a new master-slave based DTC strategy is developed to generate an electric differential system. The entire system is simulated by Matlab/Simulink. The simulation results show the effectiveness of the new multi-machine robust control based on an electric differential system for use in EV applications.

CAD/CAM 밀링 시스템을 활용한 단일 치관과 3본 교의치의 3D 적합도 평가 (Three-dimensional evaluation of the internal adaptation of single and three-unit fixed dental restoration by CAD/CAM milling system)

  • 김소리;김총명;김웅철;김지환
    • 대한치과기공학회지
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    • 제39권1호
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    • pp.35-42
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    • 2017
  • Purpose: The purpose of this paper was to evaluate the occurrence of errors regarding adaptation by conducting a three-dimensional assessment comparing the bridge type dental restoration after the cutting process, which has multiple abutments, with a single type dental restoration. Methods: By using ten identical files obtained by scanning the master model, thirty designs were created consisting of ten maxillary right first premolars and ten maxillary right first molars with single crown abutments, along with ten bridge designs with the identical abutment. A 5-axis milling machine was used to produce the design file. The produced denture prostheses were scanned using a silicone replica for a STL file. An evaluation was conducted using 3D analysis software on the master model and each of the thirty data files. Results: The RMS value of the pre-molar (14) was $38.4{\pm}4{\mu}m$ for single and $54.7{\pm}6{\mu}m$ for bridge abutment; therefore, a statistically significant difference was observed for single and bridge designs although both shared the same abutment form (P<.05). Also, the RMS value of the molar (16) was $47.6{\pm}2{\mu}m$ and $56.6{\pm}5{\mu}m$ for the single and bridge designs, respectively, thereby presenting a statistically significant difference (P<.05). Conclusion: As a result, dental prosthesis fabricated using the single method presented better internal adaptation outcomes.

Cooperative control system of the floating cranes for the dual lifting

  • Nam, Mihee;Kim, Jinbeom;Lee, Jaechang;Kim, Daekyung;Lee, Donghyuk;Lee, Jangmyung
    • International Journal of Naval Architecture and Ocean Engineering
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    • 제10권1호
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    • pp.95-102
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    • 2018
  • This paper proposes a dual lifting and its cooperative control system with two different kinds of floating cranes. The Mega-erection and Giga-erection in the ship building are used to handle heavier and wider blocks and modules as ships and off-shore platforms are enlarged. However, there is no equipment to handle such Tera-blocks. In order to overcome the limit on performance of existing floating cranes, the dual lifting is proposed in this research. In the dual lifting, two floating cranes are well-coordinated to add up the lift capabilities of both cranes without any loss such that virtually a single crane is lifting, maneuvering and unloading. Two main constraints for the dual lifting are as follows: First, two barges of floating cranes should be constrained as a rigid body not to cause a relative motion between two barges and main hooks of the two cranes should be controlled as main hooks of a single crane. In order words, it is necessary to develop the cooperative control of two floating cranes in order to sustain a center of gravity of the module and minimize the tilting angle during the lifting and unloading by the two floating cranes. Two floating cranes are handled as a master-slave system. The master crane is able to gather information about all working conditions and make a decision to control the individual hook speed, which communicates the slave crane by TCP/IP. The developed control system has been embedded in the real floating crane systems and the dual lifting has been demonstrated five times at SHI shipyard in 2015. The moving angles of the lifting module are analyzed and verified to be suitable for hoisting control. It is verified that the dual lifting can be applied for many heavier and wider blocks and modules to shorten the construction time of ships and off-shore platforms.

물체 운반을 위한 다수 로봇의 협조제어 (Cooperative Control of Mobile Robot for Carrying Object)

  • 정희인;호앙낫민;우창준;이장명
    • 로봇학회논문지
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    • 제10권3호
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    • pp.139-145
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    • 2015
  • This paper proposed a method of cooperative control of three mobile robots for carrying an object placed on a floor together. Each robot moves to the object independently from its location to a pre-designated location for grasping the object stably. After grasping the common object, the coordination among the robots has been achieved by a master-slave mode. That is, a trajectory planning has been done for the master robot and the distances form the master robot to the two slave robots have been kept constant during the carrying operation. The localization for mobile robots has been implemented using the encoder data and inverse kinematics since the whole system does not have the slippage as much as a single mobile robot. Before the carrying operation, the lifting operations are implemented using the manipulators attached on the top of the mobile robots cooperatively. The real cooperative lifting and carrying operations are implanted to show the feasibility of the master-slave mode control based on the kinematics using the mobile manipulators developed for this research.