Conferences related to Biological Systems:

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2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting

The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science


2020 42nd Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC)

The conference program will consist of plenary lectures, symposia, workshops and invitedsessions of the latest significant findings and developments in all the major fields of biomedical engineering.Submitted papers will be peer reviewed. Accepted high quality papers will be presented in oral and postersessions, will appear in the Conference Proceedings and will be indexed in PubMed/MEDLINE


2020 59th IEEE Conference on Decision and Control (CDC)

The CDC is the premier conference dedicated to the advancement of the theory and practice of systems and control. The CDC annually brings together an international community of researchers and practitioners in the field of automatic control to discuss new research results, perspectives on future developments, and innovative applications relevant to decision making, automatic control, and related areas.


2020 American Control Conference (ACC)

The ACC is the annual conference of the American Automatic Control Council (AACC, the U.S. national member organization of the International Federation for Automatic Control (IFAC)). The ACC is internationally recognized as a premier scientific and engineering conference dedicated to the advancement of control theory and practice. The ACC brings together an international community of researchers and practitioners to discuss the latest findings in automatic control. The 2020 ACC technical program will

  • 2019 American Control Conference (ACC)

    Technical topics include biological systems, vehicle dynamics and control, adaptive control, consensus control, cooperative control, control of communication networks, control of networked systems, control of distributed parameter systems, decentralized control, delay systems, discrete-event systems, fault detection, fault-tolerant systems, flexible structures, flight control, formation flying, fuzzy systems, hybrid systems, system identification, iterative learning control, model predictive control, linear parameter-varying systems, linear matrix inequalities, machine learning, manufacturing systems, robotics, multi-agent systems, neural networks, nonlinear control, observers, optimal control, optimization, path planning, navigation, robust control, sensor fusion, sliding mode control, stochastic systems, switched systems, uncertain systems, game theory.

  • 2018 Annual American Control Conference (ACC)

    Technical topics include biological systems, vehicle dynamics and control, adaptive control, consensus control, cooperative control, control of communication networks, control of networked systems, control of distributed parameter systems, decentralized control, delay systems, discrete-event systems, fault detection, fault-tolerant systems, flexible structures, flight control, formation flying, fuzzy systems, hybrid systems, system identification, iterative learning control, model predictive control, linear parameter-varying systems, linear matrix inequalities, machine learning, manufacturing systems, robotics, multi-agent systems, neural networks, nonlinear control, observers, optimal control, optimization, path planning, navigation, robust control, sensor fusion, sliding mode control, stochastic systems, switched systems, uncertain systems, game theory.

  • 2017 American Control Conference (ACC)

    Technical topics include biological systems, vehicle dynamics and control, adaptive control, consensus control, cooperative control, control of communication networks, control of networked systems, control of distributed parameter systems, decentralized control, delay systems, discrete-event systems, fault detection, fault-tolerant systems, flexible structures, flight control, formation flying, fuzzy systems, hybrid systems, system identification, iterative learning control, model predictive control, linear parameter-varying systems, linear matrix inequalities, machine learning, manufacturing systems, robotics, multi-agent systems, neural networks, nonlinear control, observers, optimal control, optimization, path planning, navigation, robust control, sensor fusion, sliding mode control, stochastic systems, switched systems, uncertain systems, game theory.

  • 2016 American Control Conference (ACC)

    Control systems theory and practice. Conference topics include biological systems, vehicle dynamics and control, consensus control, cooperative control, control of communication networks, control of networked systems, control of distributed parameter systems, decentralized control, delay systems, discrete-event systems, fault detection, fault-tolerant systems, flexible structures, flight control, formation flying, fuzzy systems, hybrid systems, system identification, iterative learning control, model predictive control, linear parameter-varying systems, linear matrix inequalities, machine learning, manufacturing systems, robotics, multi-agent systems, neural networks, nonlinear control, observers, optimal control, optimization, path planning, navigation, robust control, sensor fusion, sliding mode control, stochastic systems, switched systems, uncertain systems, game theory.

  • 2015 American Control Conference (ACC)

    control theory, technology, and practice

  • 2014 American Control Conference - ACC 2014

    All areas of the theory and practice of automatic control, including but not limited to network control systems, model predictive control, systems analysis in biology and medicine, hybrid and switched systems, aerospace systems, power and energy systems and control of nano- and micro-systems.

  • 2013 American Control Conference (ACC)

    Control systems theory and practice. Conference themes on sustainability, societal challenges for control, smart healthcare systems. Conference topics include biological systems, vehicle dynamics and control, consensus control, cooperative control, control of communication networks, control of networked systems, control of distributed parameter systems, decentralized control, delay systems, discrete-event systems, fault detection, fault-tolerant systems, flexible structures, flight control, formation flying, fuzzy systems, hybrid systems, system identification, iterative learning control, model predictive control, linear parameter-varying systems, linear matrix inequalities, machine learning, manufacturing systems, robotics, multi-agent systems, neural networks, nonlinear control, observers, optimal control, optimization, path planning, navigation, robust control, sensor fusion, sliding mode control, stochastic systems, switched systems, uncertain systems, game theory.

  • 2012 American Control Conference - ACC 2012

    All areas of control engineering and science.

  • 2011 American Control Conference - ACC 2011

    ACC provides a forum for bringing industry and academia together to discuss the latest developments in the area of Automatic Control Systems, from new control theories, to the advances in sensors and actuator technologies, and to new applications areas for automation.

  • 2010 American Control Conference - ACC 2010

    Theory and practice of automatic control

  • 2009 American Control Conference - ACC 2009

    The 2009 ACC technical program will cover new developments related to theory, application, and education in control science and engineering. In addition to regular technical sessions the program will also feature interactive and tutorial sessions and preconference workshops.

  • 2008 American Control Conference - ACC 2008

  • 2007 American Control Conference - ACC 2007

  • 2006 American Control Conference - ACC 2006 (Silver Anniversary)

  • 2005 American Control Conference - ACC 2005

  • 2004 American Control Conference - ACC 2004

  • 2003 American Control Conference - ACC 2003

  • 2002 American Control Conference - ACC 2002

  • 2001 American Control Conference - ACC 2001

  • 2000 American Control Conference - ACC 2000

  • 1999 American Control Conference - ACC '99

  • 1998 American Control Conference - ACC '98

  • 1997 American Control Conference - ACC '97

  • 1996 13th Triennial World Congress of the International Federation of Automatic Control (IFAC)


2020 IEEE 16th International Workshop on Advanced Motion Control (AMC)

AMC2020 is the 16th in a series of biennial international workshops on Advanced Motion Control which aims to bring together researchers from both academia and industry and to promote omnipresent motion control technologies and applications.


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Periodicals related to Biological Systems:

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Antennas and Propagation, IEEE Transactions on

Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.


Automatic Control, IEEE Transactions on

The theory, design and application of Control Systems. It shall encompass components, and the integration of these components, as are necessary for the construction of such systems. The word `systems' as used herein shall be interpreted to include physical, biological, organizational and other entities and combinations thereof, which can be represented through a mathematical symbolism. The Field of Interest: shall ...


Automation Science and Engineering, IEEE Transactions on

The IEEE Transactions on Automation Sciences and Engineering (T-ASE) publishes fundamental papers on Automation, emphasizing scientific results that advance efficiency, quality, productivity, and reliability. T-ASE encourages interdisciplinary approaches from computer science, control systems, electrical engineering, mathematics, mechanical engineering, operations research, and other fields. We welcome results relevant to industries such as agriculture, biotechnology, healthcare, home automation, maintenance, manufacturing, pharmaceuticals, retail, ...


Biomedical Circuits and Systems, IEEE Transactions on

The Transactions on Biomedical Circuits and Systems addresses areas at the crossroads of Circuits and Systems and Life Sciences. The main emphasis is on microelectronic issues in a wide range of applications found in life sciences, physical sciences and engineering. The primary goal of the journal is to bridge the unique scientific and technical activities of the Circuits and Systems ...


Biomedical Engineering, IEEE Reviews in

The IEEE Reviews in Biomedical Engineering will review the state-of-the-art and trends in the emerging field of biomedical engineering. This includes scholarly works, ranging from historic and modern development in biomedical engineering to the life sciences and medicine enabled by technologies covered by the various IEEE societies.


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Most published Xplore authors for Biological Systems:

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Xplore Articles related to Biological Systems:

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Photobiostimulation Effects Caused for Low Level Laser Radiation with λ = 650 nm in the Growth Stimulus of Biological Systems

2006 3rd International Conference on Electrical and Electronics Engineering, 2006

This paper has as principal objective to determine the value of some parameters of light that are determinants in the activation or inhibition of the growth stimulus in a biological system. In this case intensity and dose, as important parameters, were considered. Semiconductor and GaAlAs lasers with lambda=650 nm were used to irradiate the biological systems. In the first part ...


Novel Extended Method of Electrical Resistance Estimation in Biological Systems Modeling

2010 Fourth Asia International Conference on Mathematical/Analytical Modelling and Computer Simulation, 2010

One of the most important issues in electrical modeling of physiological system is to find an effective way of making the most accurate equivalent electrical circuit. For this reason, in this research a new way of calculation of equivalent resistance of any type of vessels in biological systems has been proposed. The research presented in this paper is part of ...


Describing Dynamic Biological Systems in SPDL and SCDL

2009 Ninth IEEE International Conference on Bioinformatics and BioEngineering, 2009

Semantic capability description language (SCDL) plays an important role as a common language and provides a generic format for problem formalization. In this paper we extend SCDL to include dynamic biological systems. A new process description language SPDL (semantic process description language) is presented and several queries as well as their corresponding SPDL descriptions are provided that are relevant to ...


Multi-objective optimization of biological systems represented by S-system models

2012 IEEE 6th International Conference on Systems Biology (ISB), 2012

This paper considers multi-objective optimization problems of biological systems. The biological system is represented by the S-system formalism. The advantage of this representation is that the steady-state equations are linear when the variables of the models are expressed in logarithmic coordinates. Profiting from this special property of S-system models, we transform the original nonlinear problem into a multi-objective linear programming. ...


A novel learning algorithm inspired by the concept of DNA sequence in biological systems

2010 International Conference on Educational and Network Technology, 2010

In this paper, a novel algorithm named DNA-like learning algorithm is proposed. This algorithm is enable to quickly train the CNN template implementing LSBF, and has many advantages including without the need to consider its convergence property, in particular faster running speed and better robustness. The important problem of implementing non-LSBF will be further discussed in the future study.


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Educational Resources on Biological Systems:

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IEEE-USA E-Books

  • Photobiostimulation Effects Caused for Low Level Laser Radiation with λ = 650 nm in the Growth Stimulus of Biological Systems

    This paper has as principal objective to determine the value of some parameters of light that are determinants in the activation or inhibition of the growth stimulus in a biological system. In this case intensity and dose, as important parameters, were considered. Semiconductor and GaAlAs lasers with lambda=650 nm were used to irradiate the biological systems. In the first part of this study three different biological systems were defined. In the fist biological system Triticum aestivum L (wheat) seeds were used; for the second biological system Cucumis sativus L (cucumber) seeds were used, and finally for the third biological system human fibroblasts were used. The responses of the three biological systems were analyzed using statistical processes when intensity and dose were varied. The results obtained indicate that when the appropriate light parameters are used activation or inhibition can occur

  • Novel Extended Method of Electrical Resistance Estimation in Biological Systems Modeling

    One of the most important issues in electrical modeling of physiological system is to find an effective way of making the most accurate equivalent electrical circuit. For this reason, in this research a new way of calculation of equivalent resistance of any type of vessels in biological systems has been proposed. The research presented in this paper is part of an ongoing effort to utilize mathematical models in the investigation of electrical model based estimation of any biological systems. To achieve this objective, accurate estimation of flow pathways in human's body we chose to model the entire hemodynamic system by equivalent electrical elements (RLC) which captures the physical properties of a segment of the biological system. For now, this study is focused on how to calculate the electrical resistance. Thus, the accuracy of electrical based models has been increased such that for any part with its individual configurations, an appropriate model has been considered. In this way the ability of modeling of different biological systems with different geometries and configurations has been improved.

  • Describing Dynamic Biological Systems in SPDL and SCDL

    Semantic capability description language (SCDL) plays an important role as a common language and provides a generic format for problem formalization. In this paper we extend SCDL to include dynamic biological systems. A new process description language SPDL (semantic process description language) is presented and several queries as well as their corresponding SPDL descriptions are provided that are relevant to biological research. These include metabolic pathway searches and modeling of enzyme kinetics.

  • Multi-objective optimization of biological systems represented by S-system models

    This paper considers multi-objective optimization problems of biological systems. The biological system is represented by the S-system formalism. The advantage of this representation is that the steady-state equations are linear when the variables of the models are expressed in logarithmic coordinates. Profiting from this special property of S-system models, we transform the original nonlinear problem into a multi-objective linear programming. The obtained problem is then reformulated as a new multi-objective programming that has no equality or inequality constraints. The example of tryptophan biosynthesis is performed to the proposed framework and shown to the effectiveness of the approach. The simulation is also studied to give a performance comparison between the proposed and nonlinear approaches.

  • A novel learning algorithm inspired by the concept of DNA sequence in biological systems

    In this paper, a novel algorithm named DNA-like learning algorithm is proposed. This algorithm is enable to quickly train the CNN template implementing LSBF, and has many advantages including without the need to consider its convergence property, in particular faster running speed and better robustness. The important problem of implementing non-LSBF will be further discussed in the future study.

  • Comparison of Iterative IOM Approaches for Optimization of Biological Systems under Uncertainty

    This paper considers the optimization problem of biological systems represented by the S-system formalism under uncertainty. Two iterative IOM strategies, the standard iterative IOM method and modified iterative IOM approach are compared for a tryptophan biosynthesis process under experimental uncertainty of the kinetic orders in S-system. The modified iterative IOM approach is proven to be very attractive. Its ability to deal with measurement error is also shown.

  • Photobiostimulation Effects Caused by Low Level Ultra-High Frequiency (v=2.45GHZ) and Laser Radiation (λ=650 NM and λ=850 NM) in the Growth Stimulus of Biological Systems

    This paper has as principal objective to determine the value of some parameters of light that are determinants in the activation or inhibition of the growth stimulus in a biological system. In this case intensity and dose, as important parameters, were considered. Semiconductor and GaAIAs lasers with λ=650 nm were used to irradiate the biological systems. In the first part of this study three different biological systems were defined. In the first biological system Triticum aestivum L (wheat) seeds were used; for the second biological system Cucumis sativus L (cucumber) seeds were used, and finally for the third biological system human fibroblasts were used. The responses of the three biological systems were analyzed using statistical processes when intensity and dose were varied. The results obtained indicate that when the appropriate light parameters are used activation or inhibition can occur.

  • Effects of electromagnetic radiation on biological systems: a short review of case studies

    The use of electromagnetic radiations (EM) has been increased many fold in the recent times mainly due to the advances in information technology (wireless and satellite communication). The enhanced presence of these EM radiations in space is causing concerns of EM interference not only of several equipments but also of biological activity. There is a serious concern on the effect of the EM radiation on biological systems in general and on human systems in particular, specifically when the exposure levels are rather high. There are guidelines, arrived after experimentation, for the minimum exposure levels of these EM radiations for safe working. The problem is two fold: first, to measure and standardize the radiation levels and second, to evaluate the effects on biological systems. The latter part is more difficult. There are several case studies conducted on the effect of non-ionizing radiations on biological systems over a wide range of frequencies emitted either from antennas, video displays or even from transmission lines. It is also recorded that the radiations from plasma seems to have desirable effects on curing cancer. Present paper summarizes three case studies conducted recently. Though conclusive evidence is yet to be arrived, it is observed that in most of the cases, the non-ionizing electro magnetic radiation seems to affect the biological activity; the experiments have shown that in the case of osteoporosis the EM radiations are observed to have a curing effect.

  • Micromanipulation of biological systems with microelectromagnets

    Micromanipulation of biological systems with microelectromagnets, a ring trap, and a matrix, was demonstrated. A ring trap is a circular conducting wire topped with an insulating layer, whereas a matrix consists of two arrays of wires, aligned perpendicular to each other, that are separated and covered with insulating layers. Microelectromagnets can create strong and local magnetic field profiles on micrometer length scales, controlling the motion of magnetic particles and biological systems in a fluid at room temperature. Magnetic beads, yeast cells bound to magnetic beads, and magnetotactic bacteria were trapped with a ring trap; they were continuously moved and assembled with a matrix. With versatile manipulation capabilities, microelectromagnets can be a new tool for biological and medical applications.

  • Mechanism of interaction of magnetic fields with biological systems

    A review is presented of the known mechanisms by which magnetic fields can interact with biological systems. The basic equations for exerting forces by both AC and DC magnetic fields on charged particles and dipoles are reviewed. Examples are given that allow order-of-magnitude estimates of the induced current densities and forces to be obtained. These estimates are compared with values known to induce measurable changes in the behavior of biological systems.<<ETX>>



Standards related to Biological Systems:

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No standards are currently tagged "Biological Systems:"