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First Nanorobot |
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The
first practical experimental nanorobot with landmark events, development and classification is
presented in the sequence. Nanorobots
can provide enormous impact for the development and implementation of
advanced biomedical instrumentation with remarkable improvement to common
clinical practice. It offers a cutting edge technology for diagnosis, drug
delivery, laparoscopic nanosurgery, and health care, with therapeutic
applications for cancer, diabetes, brain aneurysm, contagious desiases, and
cardiology. The
invention of the first nanorobot as an integrated circuit is highlighted as
an advanced CMOS nanoelectronics device. The first nanorobot comprises
therefore an engineered based prototyping device with a practical approach
using manufacturing methodologies with current and emerging technology
trends. International
technology indexes and science rankings such as ISI Web of Science (Thomson Reuters), Scopus, Engineering Village, and PubMed (NIH National Institute
of Health, U.S. National Library of Medicine) are used as the basis and the
source of the information gathered to define the first nanorobot. |
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First Nanorobot - Vocabulary and Search Results |
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Confirm the
classification about vocabulary for Nanorobot CMOS Engineering Village:
Quick search on controlled vocabulary - nanorobot
cmos (CMOS Integrated Circuits, Nanorobotics, Nanoelectronics,
Mechatronics, Lithography, Photonics, Nanotubes, Nanowires, Nems, Quatum
Electronics). Search for the first
CMOS nanorobot ISI Web of
Knowledge: search for the first nanorobot
cmos. Subject Areas: Nanoscience & Nanotechnology, Chemistry, Analytical, Electrochemistry, Engineering, Multidisciplinary, Instruments & Instrumentation. Scopus: search for
the first nanorobot
cmos. Engineering Village:
Quick search - first nanorobot
cmos. Analyze author for the
topic CMOS Nanorobot ISI Web of
Knowledge: first nanorobot
cmos. Engineering Village:
Author quick search - first nanorobot
cmos. Search for the first
Nanoelectronic Nanorobot ISI Web of
Knowledge: search for the first nanorobot
nanoelectronics. Subject Areas: Chemistry, Analytical, Electrochemistry, Instruments & Instrumentation, Medicine, Research & Experimental, Nanoscience & Nanotechnology. Scopus: search for
the first nanorobot
nanoelectronics. PubMed NIH: search
for the first nanorobot
nanoelectronics. Analyze author for the
topic Nanoelectronic Nanorobot ISI Web of
Knowledge: first nanorobot
nanoelectronics. Engineering
Village: search an expert - author/inventor of the first nanorobot
nanoelectronics. |
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First
Nanorobot - List of Works
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Full list of works
with the First Nanorobot based on CMOS Nanoelectronics according to ISI Web
of Knowledge, Scopus, Engineering Village and PubMed NIH:
Adriano Cavalcanti, Warren W. Wood, Luiz C.
Kretly, Bijan Shirinzadeh, "Computational
Nanomechatronics: A Pathway for Control and Manufacturing Nanorobots", IEEE
CIMCA
Int'l Conf. on Computational Intelligence for Modelling, Control and
Automation, IEEE
Computer Society, Sydney, Australia, pp. 185-190, November 2006. Adriano Cavalcanti, Bijan Shirinzadeh, Robert A.
Freitas Jr., Luiz C. Kretly, "Medical
Nanorobot Architecture Based on Nanobioelectronics", Recent Patents on
Nanotechnology, Bentham Science,
Vol. 1, no. 1, pp. 1-10, February 2007. Adriano Cavalcanti, Bijan Shirinzadeh, Toshio
Fukuda, Seiichi Ikeda, "Hardware
Architecture for Nanorobot Application in Cerebral Aneurysm", IEEE -
Nano 2007 Int'l Conf. on Nanotechnology (4MB ppt - presentation),
Hong Kong, China, pp. 237-242, August 2007. Adriano Cavalcanti, Bijan Shirinzadeh, Robert
A. Freitas Jr., Tad Hogg, "Nanorobot
Architecture for Medical Target Identification", IOP Select, Biology and Medicine, 9786, Nanotechnology, Vol. 19,
no. 1, 015103 (15pp), January 2008. Adriano Cavalcanti, Bijan Shirinzadeh, Mingjun
Zhang, Luiz C. Kretly, "Nanorobot
Hardware Architecture for Medical Defense", Sensors, MDPI, Vol. 8, no. 5, pp. 2932-2958, May 2008. Adriano Cavalcanti, Bijan Shirinzadeh, Luiz
C. Kretly, "Medical
Nanorobotics for Diabetes Control", Nanomedicine:
Nanotechnology, Biology and Medicine,
Patient Research,
Elsevier,
Vol. 4, no. 2, pp. 127-138, June 2008. Adriano Cavalcanti, Bijan
Shirinzadeh, Toshio Fukuda, Seiichi Ikeda, "Nanorobot for
Brain Aneurysm", IJRR
International Journal of Robotics Research, Special Issue, Sage,
Vol. 28, no. 4, pp. 558-570, April 2009. |
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First
Nanorobot - Related Quotes
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"The application of new materials may enable a
large range of possibilities, which may be translated into better sensors and
actuators with nanoscale sizes. We used 3D computational simulation with
integrated embedded nanodevices as a practical way to build nanorobots. For
this purpose, IC design using deep ultraviolet lithography provides high
precision and a commercial way for manufacturing
nanoelectronics." "The rapid progress in building nanoscale devices
should enable a wide range of capabilities. For example, ongoing development
of molecular-scale electronics, sensors and motors provides components to
enable nanorobots... The ways to enable Nano-Build
Hardware Integrated Systems has been demonstrated and manufacturing
techniques are advancing gradually." "The ability to manufacture
nanorobots may result from current trends and new methodologies in
fabrication, computation, transducers and manipulation. CMOS VLSI design using
deep ultraviolet lithography provides high precision and a commercial way for
manufacturing early nanodevices and nanoelectronics systems." "The nanorobot architecture involves the use of
mobile phones for, e.g., the early diagnosis of Ecadherin levels for smart
chemotherapy drug delivery, and new cancer tumor detection for cancer treatments." "it is possible that nanorobots could be composed
by nanoelectronics
as well as that nanoelectronics and devices could be manufactured by
nanorobots." "building biosensors and nano-kinetic devices, which is required to enable nanorobotics operation and locomotion, has been advanced" "enable the manufacturing of nanorobots - nanoscale biomolecular machine systems... In order to build electronics at nanoscales, firms are collaborating to produce new nanoproducts." "Teams of nanorobots may cooperate to perform predefined complex tasks on medical procedures. For such aims, computing processing, energy supply, and data transmission capabilities can be addressed through embedded integrated circuits, using advances on technologies derived from VLSI design. CMOS VLSI design using deep ultraviolet lithography provides high precision and a commercial way for manufacturing nanodevices and nanoelectronics." "donating the whole body of research development and technology results, such as hardware architecture, methods for instrumentation of nanodevices, advanced manufacturing methodologies and related achievements to the United Nations and all countries members of the UN, allowing in a broad sense people and industry to have unlimited use of the developed technology to advance medicine and fight diseases" "facilitate the manufacturing design of nanorobots with integrated embedded nanoelectronics and circuits." "innovative approach to build,
control, and monitoring medical nanorobot in diagnosis of cancer for its
early stage before metastasis." |
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First Nanorobot - Headlines and Interviews
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Robots
in the Body, Genome News Network, August 2004. Nanorobots Inside our
Bodies?, Roland Piquepaille's Technology Trends, August 2004. Nanorobot
pioneer reveals status of simulator, stem cell work, The Global
Nanobiotechnology Intelligence Source, NanoBiotech News, NHI Publications,
Vol. 2, n. 36, pp. 4-5, September 2004. New
Nanorobotic Ideas, Big Things Happen in Small Places, Nanotechnology News
Network, October 2004. Nanorobotics,
3-D Simulations, Topic in Depth, NSF - The NSDL Scout Report, April 2005. Medical
Nanorobotics Feasibility, Interviews, Your Gateway to Everything
Nanotech, Nanotechnology Now, November 2005. Developments
on Nanorobots with System on Chip May Advance Cancer Diagnosis, Cancer
Treatment, Health Care News Articles, eMaxHealth, October 2006. Nanorobots for
Cardiology, NanoScience Today, November 2006. Manufacturing
Technology for Medical Nanorobots, News Journal, APNF Asia Pacific
Nanotechnology Forum, Vol. 6, n. 1, January 2007. Medical Nanorobotics
for Diabetes, Nanotechnology Interviews, The International Nanotechnology
Business Directory, NanoVIP, January 2007. Nanorobot for drug
delivery and diagnosis, Lab Talk, Science Applications Industry,
Nanotechweb, IOP, December 2007. Virtual
3D nanorobots could lead to real cancer-fighting technology, Science
Physics Tech Nano News, PhysOrg, December 2007. Nanorobots
for drug delivery?, How new technologies are modifying our way of life,
Emerging Technology Trends, Roland Piquepaille, December 2007. Nanorobots for drug
delivery?, Emerging Technology Trends, Roland Piquepaille, Where
Technology Means Business, ZDNet, December 2007. Nanorobot
Manufacturing for Medicine, Advanced Manufacturing Technology, Technical
Insights, Frost & Sullivan, January 2008. Researchers
Eye Software for Nanorobots, Featured Articles, NanoScienceWorks.Org,
Taylor & Francis Group, January 2008. Software
Provides Peek into the Body - and the Future, Special Feature: Emerging
Technologies, Medical Product Manufacturing News, Canon Communications LLC,
Vol. 12, no. 2, pp. 22-23, March 2008. Nanorobots
to improve health care, How new technologies are modifying our way of
life, Roland Piquepaille's Technology Trends, May 2008. Nanorobots to improve
health care, Emerging Technology Trends, Roland Piquepaille, Where
Technology Means Business, ZDNet, May 2008. Nanorobot for Brain
Aneurysm, Emerging Technology Trends, Chris Jablonski, ZDNet, March 2009. Nanorobot
Invention and Linux: The Open Technology Factor, An Open Letter to UNO
General Secretary, Nanobiotech You Can Access, CANNXS, October 2009. Nanorobot
Invention and Linux: The Open Technology Factor - An Open Letter to UNO
General Secretary, Your Gateway to Everything Nanotech, Nanotechnology
Now, October 2009. |
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First Nanorobot - News Network
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Assembly
automation with evolutionary nanorobots and sensor-based control applied to
nanomedicine, in Nanorobotics and Nanomanipulation, Encyclopedia of
Nanoscience and Nanotechnology, American Scientific Publishers, July 2004. Nanorobots
Inside Our Bodies?, Mindjack, August 2004. Nanorobotic
challenges in biomedical applications, Biomolecular Electronics,
Molecular Fabrication, Molecular Motors, Molecular Sensors, Nanomedicine,
Inspec IEEE Xplore, December 2004. Nanorobot pioneer
reveals status of simulator, stem cell work, News, Nanotechnology Now,
September 2004. Autonomous
multi-robot sensor-based cooperation for nanomedicine, in Nanostructured
ceramics in medical devices: Applications and prospects, JOM, October 2004. Assembly
automation with evolutionary nanorobots and sensor-based control applied to
nanomedicine, in Interactive DNA Sequence and Structure Design for DNA
Nanoapplications, IEEE Transactions on
Nanobioscience, December 2004. Nanorobotics
challenges in biomedical applications, Design and Control, Conference
Guide and Abstract Book, IEEE International Conference on Electronics,
Circuits and Systems, December 2004. Nanorobotics
Control Design and 3D Simulation, Computers Robotics Research Papers,
Google Directory, February 2005. Nanorobot pioneer
reveals status of simulator, stem cell work, Views on Nanotechnology,
NanoDelta, February 2005. Nanorobotics Control Design: A Practical Approach
Tutorial, in Bio-Nanorobotics: State of the Art
and Future Challenges, Biomedical Engineering Handbook, Bio-Nano Robotics, CRC Press, March 2005. Nanorobotics
challenges in biomedical applications, Design and Control, in Model
Characteristics and Properties of Nanorobots in the Bloodstream, Master
Thesis, The Florida State University, Department of Industrial and Manufacturing
Engineering, April 2005. Nanorobotic
challenges in biomedical applications, design and control, in
Laparoscopic Surgery: Current Status, Issues and Future Developments,
Surgeon, June 2005. Nanorobotics,
3D Simulations, Sci-Tech Library Newsletter, SU Lair Stanford University
Libraries & Academic Information Resources, June 2005. Simulating
Nanorobots in Fluids with Low Reynolds Number, in Modeling and
Mathematical Analysis of Swarms of Microscopic Robots, IEEE Swarm Intelligence Symposium, June 2005. NanorobotDesign,
in Nanorobots: A New Paradigm for Hydrogeologic Characterization?, Ground
Water, July 2005. New
Nanorobotic Ideas, Relevant Pages, Difference between a real-time kernel
and an RTOS, August 2005. Nanorobotics
control design: a collective behavior approach for medicine, in A Review
of Research in the Field of Nanorobotics, Sandia Report, Office of Scientific
and Technical Information, US Department of Energy, October 2005. Assembly automation with
evolutionary nanorobots and sensor-based control applied to nanomedicine,Journal Article, Research Guides, Council of Science
Editors, Boston University Libraries, October 2005. Assembly
Automation with Evolutionary Nanorobots and Sensor-Based Control Applied to
Nanomedicine, in Research and progress in bio-nano-robot, Robot, December
2005. Medical Nanorobotics Feasibility, Nano Tsunami,
December 2005. Nanorobotics control
design: a collective behavior approach for medicine, MeSH Terms, PubMed,
National Center for Biotechnology Information, NIH National Institutes of
Health, January 2006. Assembly automation with
evolutionary nanorobots and sensor-based control applied to nanomedicine,
in Nanorobot: A versatile tool in nanomedicine, Journal of Drug Targeting,
February 2006. Nanorobot Control
Design, Robot-Assisted Surgery and Medicine, Robotics Links, February
2006. Nanorobotics control design: a
practical approach tutorial, in Tissue Engineering and Artificial
Organs, The Biomedical Engineering Handbook, Taylor & Francis CRC Press,
May 2006. Nanorobotic Challenges in
Biomedical Applications, Design and Control, in C-NEMS
Applications in Biomedical, Materials Engineering 297 - Special Topics:
Applications of Nano Materials, San Jose State University, June 2006. Assembly
automation with evolutionary nanorobots and sensor-based control applied to
nanomedicine, in Toward the emergence of nanoneurosurgery: Part III -
Nanomedicine: Targeted nanotherapy, nanosurgery, and progress toward the
realization of nanoneurosurgery, Neurosurgery, June 2006. Nanorobotics
challenges in biomedical applications, design and control, in Study on
the Elastic Characteristics of Living Cells using Atomic Force Microscope
Indentation Technique, KSTLE International Journal, June 2006. Nanorobotics
control design: A collective behavior approach for medicine, in
Nanotechnology: Intelligent design to treat complex disease, Pharmaceutical
Research, Springer, July 2006. Assembly
automation with evolutionary nanorobots and sensor-based control applied to
nanomedicine, in Intelligent Sensors: Nano technology Enabled Sensors,
Nanosensors, Sensor Networks, Australian Research Council, July 2006. Nanorobotics
control design: A collective behavior approach for medicine, in
Nanotechnology: Intelligent design to treat complex disease, Pharmaceutical
Research, Alliance for Nanotechnology in Cancer, NCI National Cancer
Institute, July 2006. Autonomous
multi-robot sensor-based cooperation for nanomedicine, in Pulsed laser
deposition of functionally gradient diamondlike carbon-metal nanocomposites,
Diamond and Related Materials, Materials Science, Top 25 Hottest Articles, Science Direct, August 2006. Nanorobotics, Other
Useful Links, Bionanotechnology Knowledge Repository, Center for Advanced
Engineering Environments, Nasa, ODU, August 2006. Nanorobotics
Research, Journals and Research, Mechatronics Resources, Mechanical
Engineering, Colorado State University, September 2006. Robots in Surgery,
in Robotic Technology in Urology, Postgraduate Medical Journal, November
2006. CMOS-based
Nanorobot to Combat Cancer, in "Nano": The new nemesis of cancer, Journal
of Cancer Research and Therapeutics, December 2006. Autonomous
multi-robot sensor-based cooperation for nanomedicine, in Mobile
Microscopic Sensors for High-Resolution in vivo Diagnostics, Nanomedicine:
Nanotechnology, Biology, and Medicine, Elsevier,
December 2006. Computational
Nanomechatronics: A Pathway for Control and Manufacturing Nanorobots,
Hardware, ACM The Guide to Computing
Literature, December 2006. New
nanorobotic ideas, in Over the Horizon: Potential Impact of Emerging Trends
in Information and Communication Technology on Disability Policy and
Practice, National Council on Disability, Washington DC, December 2006. Computational
Nanorobotics: Agricultural and Environmental Perspectives, in IEEE
M2Vip Conf. on Mechatronics and Machine Vision in Practice, December 2006. Medical
nanorobot architecture based on nanobioelectronics, Scientific Network,
Research Gate, February 2007. Nanorobotics,
Robotics Selected Links, Mechanical Engineering, ETH-Bibliothek, Swiss
Federal Institute of Technology Zurich, April 2007. Medical
Nanorobot Architecture Based on Nanobioelectronics, Recent Patents on
Nanotechnology, IngentaConnect, April 2007. Assembly
automation with evolutionary nanorobots and sensor-based control applied to
nanomedicine, in Molecular Computation and Evolutionary Wetware: A
Cutting-Edge Technology for Artificial Life and Nanobiotechnologies, IEEE
Transactions on Systems, Man and Cybernetics, May 2007. Medical Nanorobot
Architecture Based on Nanobioelectronics, in Equipment and Technology in
Robotics, Urology Robotic Surgery, Arch. Esp. Urol., May 2007. Collective
robotics coherent behavior for nanosystems with sensor-based neural motion,
in Multirobot-Based Nanoassembly Planning with Automated Path Generation,
IEEE/ASME Transactions on Mechatronics, June 2007. Assembly
Automation with Evolutionary Nanorobots and
Sensor-Based Control applied to Nanomedicine,
in Coordinating Microscopic Robots in Viscous Fluids, Autonomous Agents and
Multi-Agent Systems, Springer, June 2007. Nanorobotics
Control Design: A Practical Approach Tutorial, in Evolutionary Tool for
the Incremental Design of Controllers for Collective Behaviors, Lecture Notes
in Computer Science, Springer, June 2007. Medical
Nanorobot Architecture Based on Nanobioelectronics, in Nanotechnology: Huge
Future for Small Innovation, Cover Story, Medical Design Technology, July
2007. Nanorobotics control
design: a collective behavior approach for medicine, The Smithsonian/NASA
Astrophysics Data System, Harvard-Smithsonian Center for Astrophysics, July
2007. Nanorobotik, Ausgew\E4hlte
Links: Robotik, Maschinenbau, ETH-Bibliothek, ETH Z\FCrich, July 2007. Nanorobots
for Laparoscopic Cancer Surgery, Scientific Network, Research Gate,
August 2007. Nanorobotics
Challenges in Biomedical Applications, Design and Control, in A Neural
Network-based Learning Controller for Micro-sized Object Micromanipulation,
IEEE IJCNN 2007 International Joint Conference on Neural Networks, August
2007. Computational
Nanomechatronics: A Pathway for Control and Manufacturing Nanorobots, in
Technology Trends and Design Aspects of Data Processing Cores of Future Small
Smart Objects, Int'l Workshop on Design and Integration Principles for Smart
Objects, September 2007. Assembly
automation with evolutionary nanorobots and sensor-based control applied to
nanomedicine, in Minimizing the photobleaching of self-assembled
multilayers for sensor applications, Sensors and Actuators B: Chemical,
September 2007. Nanosystem
Design with Dynamic Collision Detection for Autonomous Nanorobot Motion
Control using Neural Networks, in The Populating Problem A Study In
Multi-Nano-Robotics, Master Thesis, Computer Science Department, Technion
Israel Institute of Technology, September 2007. Nanorobotics Control
Design: A Collective behaviour approach for medicine, in Development of
molecular based communication protocols for nanomachines, ACM Int'l
Conference on Nano-Networks, September 2007. Nanorobot
communication techniques: A comprehensive tutorial, in Experimental
Evaluation of Resilience for Ubiquitous Mobile Systems, Int'l Workshop on
Ubiquitous Systems Evaluation, September 2007. Nanorobot
communication techniques: A comprehensive tutorial, in A probabilistic
movement model for shortest path formation in virtual antlike agents, ACM
Int'l Conf. of the South African institute of computer scientists and
information technologists, October 2007. Nanorobotic
Challenges in Biomedical Applications, Design and Control, in ECE2195 Biomedical
Computing, Fall 2007, Department of Electrical and Computer Engineering,
University of Pittsburgh, Pittsburgh PA, USA, November 2007. Medical Nanorobot
Architecture Based on Nanobioelectronics, in Prospects for Medical
Robots, Journal of Nanotechnology Online, Azonano, November 2007. Nanorobots as
cellular assistants in inflammatory responses, in Distributed Control of
Microscopic Robots in Biomedical Applications, Advances in Applied
Self-organizing Systems, Springer, November 2007. Nanorobotics
control design: A collective behavior approach for medicine, in Designs
for Ultra-Tiny, Special-Purpose Nanoelectronic Circuits, IEEE Transactions on Circuits and Systems I,
November 2007. Virtual 3D
nanorobots could lead to real cancer-fighting technology, News, Computer
Science Information Virtual Reality, The Technology Trading Exchange, Tynax,
December 2007. More
on nanotechnology for medicine using nanorobots, Robotic-Lab, December
2007. VR
Could Accelerate Nanotech Reality, Discovery News, Discovery Channel,
December 2007. Virtual 3D
nanorobots could lead to real cancer-fighting technology, News, Your
Gateway to Everything Nanotech, Nanotechnology Now, December 2007. Nanorobots
for drug delivery?, News, Material Science Nanotechnology Nanobiotech,
The Technology Trading Exchange, Tynax, December 2007. Nanorobots
for drug delivery?, News, Material Science Nanotechnology
Nanoelectronics, The Technology Trading Exchange, Tynax, December 2007. Virtual 3D nanorobots
could lead to real cancer-fighting technology, Nano News, Turning
invention into reality, National Nano Manufacturing Center, December 2007. Nanorobots
for Drug Delivery?, Gadgets & Reviews, December 2007. Virtual
3D nanorobots used to develop real cancer-fighting technology,
3DWalkthrough, December 2007. Nanorobotics
control design: a collective behaviour approach for medicine, in
Neuroprotection at the Nanolevel - Part I Introduction to Nanoneurosurgery,
Annals of the New York Academy of Sciences, December 2007. Virtual
3D nanorobots could lead to real cancer-fighting technology, Bookmark,
Hatena, December 2007. Nanorobotics
control design: a collective behaviour approach for medicine, in
Neuroprotection at the Nanolevel - Part I Introduction to Nanoneurosurgery,
Annals of the New York Academy of Sciences, December 2007. Virtual 3D
nanorobots could lead to real cancer-fighting technology, News, Material
Science Nanotechnology Nanobiotech, The Technology Trading Exchange, Tynax,
December 2007. Nanorobot
for drug delivery and diagnosis, MedWorm, December 2007 Virtual 3D
nanorobots could lead to real cancer-fighting technology, News, Applied
Science Biomedical Engineering Laboratory Equipment, The Technology Trading
Exchange, Tynax, December 2007. Nanorobots for
drug delivery?, News, Life Science Biology Proteomics, The Technology
Trading Exchange, Tynax, December 2007. Virtual
3D nanorobots could lead to real cancer-fighting technology, News &
Articles, Connecting The Global Electronics Supply Chain, I-Connect007,
December 2007. Nanorobotics
Control Design: A Collective behaviour approach for medicine, in Review
of communication mechanisms for biological Nano and MEMS devices, IEEE
Bionetics Bio-Inspired Models of Network, Information and Computing Systems,
December 2007. Virtual
3D nanorobots could lead to real cancer-fighting technology, News,
Material Science Nanotechnology Nanoelectronics, The Technology Trading
Exchange, Tynax, December 2007. Virtual
3D Nanorobots Could Lead to Real Cancer-fighting Technology, News,
DeviceSpace, December 2007. Article on
NanoRobot Control Design software, Nanorobots, Physics of Nanoscience,
Project, January 2008. Nanorobot
architecture for medical target identification, The Smithsonian/NASA
Astrophysics Data System, Harvard-Smithsonian Center for Astrophysics,
January 2008. Assembly automation with
evolutionary nanorobots and sensor-based control applied to nanomedicine,
Use of nanodevices in DNA delivery, McFarland, Appropedia, January 2008. Nanorobotics
control design: a collective behavior approach for medicine, in
Neurosurgery in The Realm of 10-9, Part 2: Applications of
Nanotechnology to Neurosurgery-Present and Future, Neurosurgery, February
2008. Medical
Nanorobotics for Diabetes Control, in Re-Engineering Basic and Clinical
Research to Catalyze Translational Nanoscience, NSF Report, University of
Southern California, March 2008. Nanorobot
Architecture for Medical Target Identification, in Robots de Servicio,
Revista Iberoamericana de Autom\E1tica e Inform\E1tica Industrial, April 2008. Medical
Nanorobotics for Diabetes Control, Yonsei Proteome Research Center, May 2008. Nanotechnology proposed for
real-time monitoring of biohazard infections, Nanodot, Advancing Beneficial Nanotechnology,
Foresight Nanotech Institute, May 2008. Autonomous
Multi-Robot Sensor-Based Cooperation for Nanomedicine,
in Encyclopedia of Healthcare Information Systems, June 2008. Monitoraggio del
paziente diabetico? Con i nanorobot, Notizie, Yahoo Salute, Il Pensiero Scientifico
Editore, June 2008. Nanorobotics control
design: A collective behavior approach for medicine, in The future of
cerebral surgery: A kaleidoscope of opportunities, Neurosurgery, June 2008. Medical
Nanorobotics for Diabetes Control, Scientific Network, Research Gate,
July 2008. Medical
Nanorobotics for Diabetes Control, Nanomedicine Research, Nano-biology,
Ion Channel Media Group, July 2008. Nanorobot
architecture for medical target identification, in Nanonetworks: A
new communication paradigm, Computer Networks, August 2008. Nanorobot
Hardware Architecture for Medical Defense, in Prospects of
Deep-Sub-Voltage Nanoelectronics and Related Technologies, Nanoelektronika,
August 2008. Medical
Nanorobot Architecture Based on Nanobioelectronics, in A vision of dental
education in the third millennium, British Dental Journal, Nature, September
2008. Nanorobotics
Control Design: A Collective behaviour approach for medicine, in Hybrid
DNA and Enzymatic based Computation for Address Encoding, Link Switching and
Error Correction in Molecular Communication, ACM Nano-Net Int'l Conf. on
Nano-Networks, Boston, USA, September 2008. Nanorobot
pioneer reveals status of simulator, stem cell work, in The Unmanned
Voyage: An Examination of Nanorobotic Liability, Albany Law Journal of
Science & Technology, LexisNexis, October 2008. Assembly
automation with evolutionary nanorobots and sensor-based control applied to
nanomedicine, in The Emergence of Bioinformatics: Historical Perspective,
Quick Overview and Future Trends, Bioinformatics in Cancer and Cancer
Therapy, October 2008. Nanorobot
Hardware Architecture for Medical Defense, What's new in mind body
lifespan boosting mods!, Humods, October 2008. Medical Nanorobot
Architecture Based on Nanobioelectronics, in Comparing Three Simulated
Strategies for Cancer Monitoring with Nanorobots, Springer, October 2008. Computational
Nanomechatronics: A Pathway for Control and Manufacturing Nanorobots, in
Battery Operated Devices and Systems: From Portable Electronics to Industrial
Products, Elsevier,
December 2008. Nanorobotics control design: a collective behavior
approach for medicine, in Simulation in robotics, Mathematics and
Computers in Simulation, December 2008. Nanorobot
pioneer reveals status of simulator, stem cell work, in Nano- and
microrobotics: how far is the reality?, Expert Review of Anticancer Therapy,
December 2008. Virtual
3D nanorobots could lead to real cancer-fighting technology, NewsFeeds,
Nanotech Clearinghouse, December 2008. Nanorobots
for laparoscopic cancer surgery, in Biological Research in the Evolution
of Cancer Surgery: A Personal Perspective, Cancer Research, American
Association for Cancer Research, December 2008. Virtual 3D
nanorobots could lead to real cancer-fighting technology, Science and
TechnologyDepartment, Xi'an Jiaotong University, December 2008. Nanorobot
Hardware Architecture for Medical Defense, Sensors, in Calcium
orthophosphate-based biocomposites and hybrid biomaterials, Journal of
Material Science, Springer, January 2009. Nanorobot
architecture for medical target identification, Biology and medicine,
Most-accessed articles from 2008 and 2007, in Nanotechnology, IOP, January 2009. Nanorobot
architecture for medical target identification, in Simulation of Swimming
Nanorobots in Biological Fluids, IEEE ICARA Int'l Conf. on Autonomous Robots
and Agents, Wellington, New Zealand, February 2009. Nanorobotics
control design: a collective behavior approach for medicine, in
Neuro-Evolution for Emergent Spezialization in Collective Behavior Systems,
Doctoral Theses, Science, Vrije Universiteit Amsterdam, March 2009. Nanorobot for
Brain Aneurysm, News, Your Gateway to Everything Nanotech, Nanotechnology
Now, March 2009. Nanorobotics
control design: a collective behavior approach for medicine, in Robotic
Technology, Urologic Robotic Surgery in Clinical Practice, Springer, March
2009. Medical
nanorobotics for diabetes control, Medical
Need, Patient Research
Beta, Elsevier, March 2009. Nanorobot for Brain Aneurysm, Robotics, Small Investment, Business
Exchange, Bloomberg BusinessWeek, March 2009. Nanorobots for
Laparoscopic Cancer Surgery, RFID CMOS eBook, April 2009. Nanorobot
hardware architecture for medical defense, in Biosensors on Array Chip by
Dual-color Total Internal Reflection Fluorescence Microscopy, Biochip
Journal, June 2009. New Nanorobotic
Ideas, in The Universal Access
Handbook, CRC Press, Taylor & Francis, June
2009. Nanorobotics Control Design and 3D Simulation, Nanorobotics Inventor, Nanotechnology
Information, NanoVIP, July 2009. Nanorobot
hardware architecture for medical defense, in Reconstructing the Whole: Present and Future of Personal Health Systems, PHS2020, FP7, August 2009. Nanorobotic
challenges in biomedical applications, design and control, in Micro-force
compensation in automated micro-object positioning using adaptive neural
networks, Smart Materials & Structures, IOP,
September 2009. Medical
nanorobotics for diabetes control, in Translational nanomedicine: status
assessment and opportunities, Nanomedicine: Nanotechnology, Biology and
Medicine, September 2009. Nanorobot, Nanorobot
Inventor, Go get it!, Lycos,
September 2009. Nanorobot
hardware architecture for medical defense, in Nanotechnology in joint replacement, Nanomedicine &
Nanobiotechnology, Wiley Interdisciplinary Reviews, September 2009. Nanorobot, Nanorobot
Inventor, Find it all, AlltheWeb,
September 2009. Nanorobot Invention and Linux: The Open Technology Factor
- An Open Letter to UNO General Secretary, News,
Your Gateway to Everything Nanotech, Nanotechnology Now,
October 2009. Nanorobot Invention
and Linux, Application of Biomedical Instrumentation in Nanotechnology,
Glue, Yahoo, October 2009. Nanorobot Invention
and Linux: The Open Technology Factor, News, Linus Torvalds, Florida
Today, October 2009. Nanorobot Invention and
Linux, News and Information on Nanotechnology, Nanotechnology, NetNe,
October 2009. Nanorobot
Invention and Linux: The Open Technology Factor, latest headlines for
technology linux, Technology, Findology News, October 2009. Nanorobot Hardware, Nanorobotics
Invention, Yahoo, October 2009 Nanorobot
Invention and Linux: The Open Technology Factor, Invention of the
Airplane, Links, October 2009. Nanorobot
Invention and Linux: The Open Technology Factor, Linux News, Google News,
October 2009. Nanorobot
Invention and Linux: The Open Technology Factor, News and Information,
Nanotech Surgery, October 2009. Nanorobot Hardware, Nanorobotics
Invention, Alta Vista,
October 2009. Nanorobot
Invention and Linux: The Open Technology Factor, Architecture - News, A
Discovery Company, TreeHugger, October 2009. Nanorobot Invention
and Linux: The Open Technology Factor, Intellectual Property (IP) &
Patents News, Lawyerment, October 2009. UNO
General Secretary Contacted about Linux Nanorobot, Nanorobot Invention
and Linux: The OpenTechnology Factor, Linux Advocacy, Google groups, October
2009. Nanorobot
Invention and Linux: The Open Technology Factor - An Open Letter to UNO
General Secretary, Recent News, Nanotechnology News Only, October 2009. Nanorobot
Invention and Linux: The Open Technology Factor, News, Nanobiotechnology
Network, October 2009. Nanorobot Hardware, Nanorobotics
Invention, Google, October 2009. Nanorobot Invention
and Linux: The Open Technology Factor, Recent Linux, Operating System
Market Share News, Linux Fedora Usage, Stat Owl, October 2009. Nanorobot
Invention and Linux: The Open Technology Factor, Nanotechnology News,
Google News, October 2009. Nanorobot Invention
and Linux: The Open Technology Factor, Open Source Applications,
IntelDesk, October 2009. Nanorobot
Invention and Linux, Related News, Oscar of Invention, Big Blog, November
2009. Nanorobot Manufacturing, Nanorobotics
Invention, Bing, October 2009. Nanorobot Invention and
Linux: The Open Technology Factor, Breaking News, Yabi Publications,
Bioinformatic Index, Bioinformatics & Computational Biology Lab, October
2009. Nanorobot
Invention and Linux: The Open Technology Factor, Nanorobot Invention, Google News,
October 2009. Nanorobot Invention and Linux: The Open Technology Factor
- An Open Letter to UNO General Secretary, Open Source
News, Xtreme OpenSource, October 2009. Nanorobot
Hardware, Nanorobotics Invention, Go get it!, Lycos, October 2009. Nanorobot Invention and
Linux: The Open Technology Factor, Nanotechnology News, Center for
Hierarchical Manufacturing, October 2009. Nanorobot
Invention and Linux: The Open Technology Factor - An Open Letter to
UNO General Secretary, Nano Planet, Nano News Net, October 2009. Nanorobot Pioneer, Nanorobotics
Invention, Google, October 2009. Nanorobot Invention and Linux: The Open Technology Factor
- An Open Letter to UNO General Secretary, Technology,
Society, The Truth Pursuit,
October 2009. Nanorobot
Manufacturing, Nanorobot Inventor, Find it all, AlltheWeb, October 2009. Nanorobot
Invention and Linux: The Open Technology Factor - An Open Letter to
UNO General Secretary, Topics, Alan Turing, US Today, October
2009. Nanorobot
Invention, Nanorobotics Invention, Google, October 2009. Nanorobot Invention
and Linux: The Open Technology Factor, News Feed, Investor Community,
Zangani, October 2009. Assembly
Automation with Evolutionary Nanorobots and Sensor-Based Control applied to
Nanomedicine, in 980-nm Laser-Driven Photovoltaic Cells Based on
Rare-Earth Up-Converting Phosphors for Biomedical Applications, Wiley
Interscience, Advanced Functional Materials, November 2009. Nanorobot
architecture for medical target identification, in Carbon nanotubes
towards medicinal biochips, Nanomedicine & Nanobiotechnology, Wiley
Interdisciplinary Reviews, November 2009. Nanorobot
Hardware Manufacturing, Nanorobot Invention, Include Citations, Articles
and Patents, Anytime, Google Scholar, December 2009. Author of An
Invention, Nanorobot Invention, Osun.org, December 2009. Nanorobot
Inventor, Images, Google, December 2009. Assembly
Automation with Evolutionary Nanorobots and Sensor-Based Control applied to
Nanomedicine, in Emerging Robotics, New Technologies in Urology, New
Techniques in Surgery, Springer, January 2010. Nanorobot
architecture for medical target identification, in State of the art,
Strategic Applications Agenda, Working Group on Leading Edge Application, eMobility, FP7, January 2010. Nanorobot
architecture for medical target identification, Biology and medicine,
Best of 2008 and 2009, in Nanotechnology, IOP, January 2010. Nanorobot
Nobel, Biomedical, Gigablast, February 2010. Nanorobot,
Nanorobot Invention, Nanorobot Hardware, Open Technology, Yahoo, February
2010. Nanorobot
Invention, Business Exchange, BusinessWeek, Go get it!, Lycos, February
2010. Nobel Prize
Winning, Ethics, Preparing for Nano, Nanotechnology Now, February 2010. Nobel
Prize Physics, Nanorobot Nobel Prize, Nanorobot Hardware, Nanorobotics
Invention, OpenPdf, February 2010. Nanorobot,
Nanorobot Invention, Nanorobot Hardware, Open Technology, Yahoo, February
2010. Nanorobot
Inventor, Nanorobotics Invention, Google, March 2010. First
Nanorobot Hardware, nanobielectronics, Nanorobot Hardware Manufacturing,
Nanorobot Invention, find it all, AlltheWeb, March 2010. First
Nanorobot Hardware Nanoelectronics, Manufacturing Technology,
Laparoscopic Cancer Surgery, Health Care, Google, March 2010. First
Nanorobot Hardware, Invention, Open Technology, Nanorobot Invention, First
Nanorobot, Yahoo, March 2010. First
Nanorobot RFID, Include Citations, Articles and Patents, Anytime, Google Scholar, March 2010. First
Nanorobot Hardware, nanobielectronics, Nanorobot Hardware, Nanorobot
Nobel Prize, Nanorobot Invention, go get it!, Lycos, March 2010. Nanorobot
CMOS, Nanobioelectronics, Combat Cancer, Nanorobot Hardware, Cancer
Surgery, Include Citations, Articles and Patents, Anytime, Google Scholar, March
2010. First
Nanorobot Hardware Nanoelectronics, Nanoelectronics Fabrication, Emerging
Technology, IxQuick, March 2010. First
Nanorobot Hardware, Nanorobot Hardware Manufacturing, Manufacturing
Technology, Nanorobot Inventor, First Nanorobot, Google, March 2010. First
Nanorobot Hardware, Hardware, Medical Defense, Nanorobot Hardware, Alta Vista,
March 2010. Nanorobot
RFID, Artery Occlusion, Combat Cancer, Manufacturing, Nanorobot Hardware, Include Citations, Articles and Patents, Anytime, Google Scholar, March 2010. Nanorobot Nobel, CANNXS, Inventor, Gigablast, March 2010. First
Nanorobot CMOS, Manufacturing Technology, CMOS-based Nanorobot to Combat
Cancer, Laparoscopic Cancer Surgery, Google, March 2010. First
Nanorobot Hardware, Hardware for Nanorobot, Nanobhis (Nano-Build Hardware
Integrated System), search the search engines!, Metacrawler, March 2010. Nanorobot architecture for medical target identification, in Nanoparticle-labeled stem cells: a novel therapeutic vehicle, Clinical Pharmacology: Advances and Applications, Dovepress, March 2010. Nanorobot Technology: What to Expect from Science, A Personal Letter in Answer to United States Navy, CANNXS,
June 2010. Biotechnology for the 21st Century workshop, The Technical Cooperation Program (TTCP), Alexandria, VA, USA, August 2010. |
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The CANNXS
Project is maintained and driven by the community and sponsored by CAN Center
for Automation in Nanobiotech. For comments or queries, please contact us. |
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