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Role of MEMS and

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Title: Role of MEMS and


1
Role of MEMS and nanotechnology in homeland
security
2
First of all, what is MEMS ?
  • MEMS stands for Micro Electro Mechanical Systems.
  • It is a technique of combining Electrical and
    Mechanical components together on a chip, to
    produce a system of miniature dimensions ..
  • By miniature, we mean dimensions less than the
  • thickness of human hair !!!!

3
The wonder called nanotechnology
  • Nanotechnology is the technology of arranging
    atoms and molecules in a material.
  • This allows to alter the properties of a material
    and build structures of desired features.
  • A nanometer is one-billionth of a meter.
  • Nanotechnology makes it possible to manufacture
    devices 80,000 times smaller than the thickness
    of human hair !!

4
A simple analogy..
  • The atoms in an object can be compared to the
    blocks in a building game.
  • In a building game, the blocks can be arranged to
    create different looking structures.
  • Similarly, atoms can be arranged differently to
    produce a multitude of devices. This forms the
    basis of nanotechnology.

5
Outline
  • Introduction to MEMS technology
  • Introduction to Homeland Security
  • Application of MEMS to Homeland Security
  • Military
  • Biometric Identification
  • Bio-terrorism
  • Marine Security
  • Conclusion

6
Homeland Security
  • Homeland Security refers to protection of
    territory, domestic population and critical
    infrastructure against external threats and
    aggression.
  • September 11 attacks and the bio-terrorism
    threats have made Department of Homeland Security
    a focal point in defending the nation against
    terrorist attacks.

7
Application of Mems in Homeland Security
  • Homeland Defense Military Applications
  • Biometric Identification Sensors
  • Defense against Bio-terrorism
  • Marine Security

8
Military Applications of MEMS
  • Development of agile and advanced military
    warfare
  • Faster access to information in all domains
  • AIR, SEA LAND

9
MEMS based Optical Identification and
Communication Systems (MOICS)
http//www.tanner.com/Labs/research/technologies/m
oics/optical_comm.htm
10
MOICS
This system would ensure secure communication
between sensors in Hazardous environment on
battlefields without use of expensive positioning
system.
Interrogate unit
Remote unit
MEMS Mirrors
http//mems.colorado.edu/c1.res.ppt/ppt/oe.review/
ppt.htm?
11
Multisensor Microcluster
  • This system includes micro-sensors for
    measurement of temperature, pressure, humidity
    and position.
  • Applications
  • Environmental Monitoring
  • Health Monitoring

http//www.eecs.umich.edu/wise/Research/Overview/
Wise_Research.pdf
12
MEMS POLYCHROMATOR
Imagine a soldier on a battlefield looking
through a pair of binoculars and detecting from
afar the nature of gas being emitted in a smoke
cloud. There's no need to obtain a sample of the
gas or even get close to it. Instead, the
detection is made from a safe one or two miles
away using a POLYCHROMATOR employing MEMS to
analyze the chemical Species.
13
MEMS MAGNETOMETER
  • MEMS magnetometer coupled with wireless systems
    can detect tanks, trucks or terrorists with
    weapons hiding in caves upto depths of 100 feet.
  • MEMS Magnetometer sense change in earths Magnetic
    field without any drive current

http//www.ee.ucla.edu/research/judylab/research/j
effresearch/
14
Navigation systems
  • Global Hawk- High-altitude Unmanned Aerial
    Vehicle (UAV) employing MEMS accelerometer, was
    flown over battlefields in Iraq for obtaining
    detailed views of what was happening on the
    ground (surveillance).
  • Development of Inertial Navigation systems using
    MEMS technology coupled with Global Positioning
    Systems (GPS) to accurately guide projectiles to
    target.

15
Handheld Explosive Detectors
  • Miniature micro-machined silicon cantilever
    structures coated with sensitive polymer that
    detect vapors given off by explosives
  • Applications
  • Explosive detection technology for airport
    and building
  • Detection of land mines
  • Environmental security
  • Public safety applications.

Array of Cantilevers that bend in presence of
explosives
http//www.smalltimes.com/document_display.cfm?doc
ument_id6637
16
Detection of Land MinesSMART DUST
  • Chemical sensors used for detection of land mines
    unlikely to be detected by Remote Sensing
    techniques.
  • The suspected areas are crop dusted with sensors
    which react with target chemical to produce a
    fluorescent pattern later detected by light
    detection techniques.
  • Advantage more reliable than other detection
    systems which have high false alarm rate.

17
Pico-satellites
Use of Radio frequency MEMS Switches in
pico-satellites for communication with ground
based Antennas http//www.aip.org/tip/INPHFA/vol-7
/iss-1/p26.pdf
18
MEMS in Biometrics
Fingerprint Identification
Facial Recognition
Iris and Retinal Identification
www.autostar.com.sg/ biometric_solution.html
19
Biometric Identification
  • Reliable, low cost and convenient method of
    uniquely identifying individuals by measuring
    certain physical and behavioral characteristics
  • This sample is then compared with the template or
    signature, based on the same characteristics
    established as unique identity of that individual
    and stored in the security system
  • Characteristics Finger prints, Palm prints,
    Retina and iris patterns, face patterns, voice,
    gait.

20
Tactim
  • Sensory receptors in the finger tip have the
    ability to produce unique personal sound wave
    specific to each individual.
  • MEMS sensors are used to record the sound
    produced by the rubbing of the middle-fingertip
    of a person on a wooden plate, thereby providing
    an authentication system

www.tactim.com
21
MEMS based Fingerprint Sensors
  • Determines Finger surface structure independent
    of moisture conditions.
  • The sensor is composed of an array of 60,000
    pixels, with each pixel having sensing circuit
    comprising 102 transistors.
  • A finger ridge is detected as the result of
    mechanical deformation of each pixel



http//www.eetimes.com/at/news/OEG20011114S0068
22
Defense against Bio-terrorism
  • Recent bio-terrorism in the form of anthrax
    attacks demands sensors to detect the presence
    of biological weapons such as airborne bacteria,
    viruses and other
  • pathogens
  • Technology
  • BioMems
  • lab on a chip
  • Nanotechnology

23
Micro-Chem. Lab
http//www.sandia.gov/mstc/technologies/microanaly
tical/index.html
24
Detection using µ-Chem lab
  • A chemical signature -- or fingerprint -- is
    created by separating constituents with
    chromatography, a process of moving the mixture
    through separation channels containing a variety
    of materials. Within about a minute, a small
    display screen flashes the name and quantity of
    the components.
  • The technique detects compounds at the part per
    billion level of concentrations.

25
15 Minutes of FAME
  • Advantage low power requirements, low cost,
    hand-held, and lightweight.

http//www.sandia.gov/mstc/technologies/microanaly
tical/analytic-system.html
26
Electronic Tongue
www.utexas.edu/.../99oc_issues/
oc990120/oc_tongue2.html
  • MEMS Sensors act as TASTE BUDS to identify
    chemical
    Components in Liquids
  • Incorporates number of chemical sensors
    generating an electronic fingerprint of the
    tastes.

27
Use of Nanotechnology
  • Use of gold nano-particles to detect
    life-threatening bacteria and viruses such as
    anthrax and HIV
  • This technique is used is used for detecting
    specific DNA sequences, the genetic material that
    defines life.

28
Coastline and Port Security
29
Bottom Stationed Ocean Profiler(BSOP)
  • Development of a 10 by 7 foot Bottom Stationed
    Ocean Profiler - autonomous underwater vehicle
  • Incorporates chemical, physical and biological
    micro-sensors monitoring the waters for toxins or
    explosives
  • The profiler sits underwater, and surfaces on
    command to collect data and radio it back to the
    station.

http//isis2.admin.usf.edu/ur/usfmagazine/spring02
/rip1.html
30
Torpedo activation using MEMS
  • Torpedos generally carry a arming sensor that
    determines whether conditions are right for the
    torpedos to detonate.
  • Mems device are incorporated as arming sensor
    that are integrated with signal processing
    electronics and algorithms that
  • determine when to arm the torpedo
  • Makes the torpedos target specific

31
Conclusion
  • MEMS and Nanotechnology are the trends enabling
    Homeland Security.
  • Research and development in this field would
    provide means to anticipate, deter and defend
    against terrorist threats and secure our borders
    against any kind of aggression

32
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