• 제목/요약/키워드: insect-inspired

검색결과 15건 처리시간 0.028초

Male-Silkmoth-Inspired Routing Algorithm for Large-Scale Wireless Mesh Networks

  • Nugroho, Dwi Agung;Prasetiadi, Agi;Kim, Dong-Seong
    • Journal of Communications and Networks
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    • 제17권4호
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    • pp.384-393
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    • 2015
  • This paper proposes an insect behavior-inspired routing algorithm for large-scale wireless mesh networks. The proposed algorithm is adapted from the behavior of an insect called Bombyx mori, a male silkmoth. Its unique behavior is its flying technique to find the source of pheromones. The algorithm consists of two steps: the shortest-path algorithm and the zigzag-path algorithm. First, the shortest-path algorithm is employed to transmit data. After half of the total hops, the zigzag-path algorithm, which is based on the movement of the male B. mori, is applied. In order to adapt the biological behavior to large-scale wireless mesh networks, we use a mesh topology for implementing the algorithm. Simulation results show that the total energy used and the decision time for routing of the proposed algorithm are improved under certain conditions.

곤충 행동 양식 기반의 애드 혹 네트워크를 위한 존 반경 결정 알고리즘 (Insect-Inspired Algorithm for Zone Radius Determination of Ad-hoc Networks)

  • 이혜민;김동성
    • 제어로봇시스템학회논문지
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    • 제20권10호
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    • pp.1079-1083
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    • 2014
  • In this paper, a new zone radius determination algorithm is proposed for a nature-inspired routing protocol that emulates the foraging behavior of bees based on their ability to find an optimal route from nectar sites. Instead of changing the radius of nodes one-hop by one-hop, the proposed algorithm alters the radius of nodes as gaps of another radius and adapt quickly to network conditions. The simulation results show that the proposed algorithm has higher efficiency compared with existing studies in an aspect of computational complexity and end-to-end delay.

소형 곤충형 지상 이동 로봇 주행 메커니즘의 다리 기구 설계 및 분석 (Design and Analysis of Leg Linkage of Small-scale Insect-inspired Ground Mobile Robot)

  • 임소정;이성준;백상민;허석행;유재관;조규진
    • 로봇학회논문지
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    • 제18권3호
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    • pp.285-292
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    • 2023
  • Small-scale ground mobile robots can access confined spaces where people or larger robots are unable. As the scale of the robot decreases, the relative size of the environment increases; therefore, maintaining the mobility of the small-scale robot is required. However, small-scale robots have limitations in using a large number of high-performance actuators, powerful computational devices, and a power source. Insects can effectively navigate various terrains in nature with their legged motion. Discrete contact with the ground and the foot enables creatures to traverse irregular surfaces. Inspired by the leg motion of the insect, researchers have developed small-scale robots and they implemented swing and lifting motions of the leg by designing leg linkages that can be adapted to small-scale robots. In this paper, we propose a leg linkage design for insect-inspired small-scale ground mobile robots. To use minimal actuation and reduce the control complexity, we designed a 1-DOF 3-dimensional leg linkage that can generate a proper leg trajectory using one continuous rotational input. We analyzed the kinematics of the proposed leg linkage to investigate the effect of link parameters on the foot trajectory.

Insect-Model Based Robots

  • Kuwana, Yoshihiko
    • International Journal of Industrial Entomology and Biomaterials
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    • 제1권2호
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    • pp.91-93
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    • 2000
  • Insects have many excellent features and functions in their small bodies, such as hexapod walking, flapping flight, vision systems, sensory hairs, etc, and those characteristics can be thought as good models for many types of robots. Insects also will be good models far micro-machines because of its size. Insect behavior consists of simple reflex acts and programmed behavior, Some robots were made in order to clarify the emergent mechanism of insect behavior, Through some experiments it would be found that even if insect behavior consists of some simple action patterns, it looks intelligent through interactions its sensors and actuators with its complex environment. In the near futures small robots inspired by insects will be used in many fields of our life. I hope that insect-model based robots will play an active part in many fields and that they will make us happy.

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평형곤을 모사한 생체모방형 구동부 일체형 각속도 센서 (Biomimetic Gyroscope Integrated with Actuation Parts of a Robot Inspired by Insect Halteres)

  • 정민기;김지수;장서형;이태재;심형보;고형호;조규진;조동일
    • 제어로봇시스템학회논문지
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    • 제22권9호
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    • pp.705-709
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    • 2016
  • Micro-electro-mechanical systems (MEMS) gyroscopes are widely used in various robot applications. However, these conventional gyroscopes need to vibrate the proof mass using a built-in actuator at a fixed resonance frequency to sense the Coriolis force. When a robot is not moving, the meaningless vibration of the gyroscope wastes power. In addition, this continuous vibration makes the sensor vulnerable to external sound waves with a frequency close to the proof-mass resonance frequency. In this paper, a feasibility study of a new type of gyroscope inspired by insect halteres is presented. In dipterous insects, halteres are a biological gyroscope that measures the Coriolis force. Wing muscles and halteres are mechanically linked, and the halteres oscillate simultaneously with wing beats. The vibrating haltere experiences the Coriolis force if the insect is going through a rotational motion. Inspired by this haltere structure, a gyroscope using a thin mast integrated with a robot actuation mechanism is proposed. The mast vibrates only when the robot is moving without requiring a separate actuator. The Coriolis force of the mast can be measured with an accelerometer installed at the tip of the mast. However, the signal from the accelerometer has multiple frequency components and also can be highly corrupted with noise, such that raw data are not meaningful. This paper also presents a suitable signal processing technique using the amplitude modulation method. The feasibility of the proposed haltere-inspired gyroscope is also experimentally evaluated.

A comparative study of dragonfly inspired flapping wings actuated by single crystal piezoceramic

  • Mukherjee, Sujoy;Ganguli, Ranjan
    • Smart Structures and Systems
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    • 제10권1호
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    • pp.67-87
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    • 2012
  • A dragonfly inspired flapping wing is investigated in this paper. The flapping wing is actuated from the root by a PZT-5H and PZN-7%PT single crystal unimorph in the piezofan configuration. The non-linear governing equations of motion of the smart flapping wing are obtained using the Hamilton's principle. These equations are then discretized using the Galerkin method and solved using the method of multiple scales. Dynamic characteristics of smart flapping wings having the same size as the actual wings of three different dragonfly species Aeshna Multicolor, Anax Parthenope Julius and Sympetrum Frequens are analyzed using numerical simulations. An unsteady aerodynamic model is used to obtain the aerodynamic forces. Finally, a comparative study of performances of three piezoelectrically actuated flapping wings is performed. The numerical results in this paper show that use of PZN-7%PT single crystal piezoceramic can lead to considerable amount of wing weight reduction and increase of lift and thrust force compared to PZT-5H material. It is also shown that dragonfly inspired smart flapping wings actuated by single crystal piezoceramic are a viable contender for insect scale flapping wing micro air vehicles.

패킷 방식 네트워크상의 적응적 경로 선정을 위한 군집체 특성 적용 하드웨어 구현 (Hardware Implementation of Social Insect Behavior for Adaptive Routing in Packet Switched Networks)

  • 안진호;오재석;강성호
    • 대한전자공학회논문지SD
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    • 제41권3호
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    • pp.71-82
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    • 2004
  • 생태계의 군집 특성을 네트워크 환경에 적용하여 급변하는 환경에 대한 자가 적응 및 생존 특성을 부여하는 연구가 최근 많은 주목을 받고 있다. 그 중 AntNet은 개미를 모델링한 모바일 에이젼트를 사용하여 최적의 네트워크 경로를 선택하는 적응적 라우팅 알고리즘이다. 본 논문에서는 SoC 시스템에 적용 가능한 AntNet 기반 하드웨어 구조를 제안한다. 제안된 구조는 기존 알고리즘 수준의 AntNet을 하드웨어 레벨로 근사화 하여 설계되었으며, 기존 AntNet과 가상 네트워크 구조에서의 비교를 통하여 그 타당성을 검증하였다. 그리고 RTL 수준의 설계 및 합성 결과를 통하여 제안된 하드웨어 구조가 AntNet 기반 라우팅 구현에 효과적임을 확인할 수 있었다.

Control Effectiveness Analysis of the hawkmoth Manduca sexta: a Multibody Dynamics Approach

  • Kim, Joong-Kwan;Han, Jae-Hung
    • International Journal of Aeronautical and Space Sciences
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    • 제14권2호
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    • pp.152-161
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    • 2013
  • This paper presents a control effectiveness analysis of the hawkmoth Manduca sexta. A multibody dynamic model of the insect that considers the time-varying inertia of two flapping wings is established, based on measurement data from the real hawkmoth. A six-degree-of-freedom (6-DOF) multibody flight dynamics simulation environment is used to analyze the effectiveness of the control variables defined in a wing kinematics function. The aerodynamics from complex wing flapping motions is estimated by a blade element approach, including translational and rotational force coefficients derived from relevant experimental studies. Control characteristics of flight dynamics with respect to the changes of three angular degrees of freedom (stroke positional, feathering, and deviation angle) of the wing kinematics are investigated. Results show that the symmetric (asymmetric) wing kinematics change of each wing only affects the longitudinal (lateral) flight forces and moments, which implies that the longitudinal and lateral flight controls are decoupled. However, there are coupling effects within each plane of motion. In the longitudinal plane, pitch and forward/backward motion controls are coupled; in the lateral plane, roll and side-translation motion controls are coupled.

생체모방 공중로봇의 날개 구조 모델링 (The wing structure modeling of the bioinspired aerial robot)

  • 최연호;조내수;정정은;권우현;이동하
    • 한국태양에너지학회 논문집
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    • 제32권spc3호
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    • pp.269-274
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    • 2012
  • The research of the biological mimics robot which utilizes the operation of the organism is progressed on the ground, aerial, and underwater robot sector. In the field of flying robot, the research for implementing the wing movement structure of the bird and insect is progressed. The joint structure for the wing movement of the bird is implemented. The operation of the wing is simulated. For this purpose, by using the Matlab/Simulink, the joint structure of the wing is modelled. The joint movement of the wing is tested through the simulation.