Smart dust consists of tiny wireless sensor nodes called "motes" that contain sensors, computing circuits, communication technology, and a power supply integrated on a dust-sized device. These motes form networks to transmit sensor data like temperature, humidity, light, and vibrations back to a central computer. Each mote has an ambient sensor, wireless transmitter, CPU, and power source. Researchers are working to miniaturize components using MEMS and integrated circuit technology to create smarter and smaller smart dust networks for applications in defense, healthcare, environment monitoring, and more. Challenges include reducing size, weight, and power consumption of the motes.
2. "Smart dust" devices are tiny wireless microelectromechanical sensors
(MEMS) that can detect everything from light to vibrations.
Nodes in Smart Dust are called Motes.
These "motes" contain sensors, computing circuits, bidirectional wireless
communications technology and a power supply integrated on a tiny dust
size-device.
3. It’s not small grains of sand or dirt but similarly sized
particles that have a brain.
They Transmits information like temperature, humidity,
light ,vibrations, surface pressures, etc.
Smart sensors relay signals back to a command computer.
These are battery-powered devices where MTS (sensors)
and MDA (data card sensors) work directly with the Mote
Processor.
4. Smart Dust is a network of ‘motes’, identical or similar tiny computers
consisting of four miniaturized components:
Ambient sensor
Wireless Transmitter
CPU
Power Source
6. Micro electronic integrated circuits can be thought of as the “brains” of a system.
Because MEMS devices are manufactured using batch fabrication techniques similar to those
used for integrated circuits, unprecedented levels of functionality, reliability, and sophistication
can be placed on a small silicon chip at a relatively low cost.
7. Micro-Electro-Mechanical Systems (MEMS) is the integration of mechanical
elements, sensors, actuators, and electronics on a common silicon
substrate.
While the electronics are fabricated using integrated circuit (IC) the micro
mechanical components are fabricated using compatible “micromachining”
processes.
8. •A wireless communication system is required for sending and
receiving data with data transfer rate of 1 Kbps.
•The devices for communication are subjected to size and power
constraints.
•It must support bi-directional communication between a central
transceiver and up to 1000 dust motes.
9.
10. • Accelerometer containing Smart Dust
• MEMS microphones in portable devices
• Monitor speed and Volume of traffic to avoid recurring traffic jams.
• Also used in modern cars for a large number of purposes including
airbag deployment in collisions.
11. • The motes used for defense purpose of consists of magnetometer, a vibration sensor
and a GPS receiver.
• Spread on the battlefield by moving vehicles or soldiers with modified binoculars.
• Also used to monitor critical parts of aircrafts and other war vehicles.
12. Circulatory Net
• Enter human bodies and check for physiological problems.
• Relay information about cancerous cells.
•Doctors will be able to monitor health status and curing situations of patients through
smart dust.
•Surgery will be more and more efficient and reliable as it will provide an extra arm for
surgeons in their daily duties.
• Biomedical application – Artificial Retina.
13. • In Environment Conservation.
• Detect hazardous chemical and biological agents.
• Monitoring nature of animals.
• Measuring Temperature , humidity, etc.
14. • Relative high power consumption.
• Hence can be used only for a short duration of time.
• Components like active beam-steering mechanism makes the design of the dust mote
more complicated.
• It is difficult to fit all the components in a small Smart dust both in terms of Size and
Energy.
•With devices so small, batteries used present a massive addition of weight into it.
15. • ‘Smart dust’ is receiving huge investment around the world and it could be used to create
a safer and more efficient food and agriculture system.
• Smart Dust’s development, use, and employment in the future, further research is
necessary, specifically in the areas of intelligence analysis and dependence.
• Social aspects- it can help in saving a lot of loss of power in light and climatic control of
building.
16. • Large Scale Processing & Distribution.
• To bring multi-hop network topology.
• Data Fusion.
• Autonomous Network Configuration.
• Researches on reducing the size and weight of the latest generation motes.
• Trying to make it so light that it flows on with the direction of air.
17. • Many ongoing researchers on the Smart Dust Project are working on to make the size of the
present latest generation mote as small as possible and to make it available at a low price.
• And then soon we will see Smart Dust being used in various application of life Leading the
present world to a Smarter World.
Notes de l'éditeur
Motes can also be categorised based on how they work:
(A) Data collection
• Wake up shortly to collect and transmit sensor data
• Remain in sleep phase the rest of the time
(B) Event detection
• Monitoring their surroundings for random and ephemeral events all the
time
• Wake up/Sleep procedure not applicable
• Motes can be shut down only partially while monitoring for events
Monitor speed and Volume of traffic
to avoid recurring traffic
jams
u change the heading from IT sector to:-Commercial Application in IT Sector• Inkjet printers, which use piezoelectrics or thermal bubble ejection to deposit ink on paper. • Accelerometers in modern cars for a large number of purposes including airbag deployment in collisions. • MEMS microphones in portable devices, e.g., mobile phones, head sets and laptops.• Optical switching technology, which is used for switching technology and alignment for data communications • Fluid acceleration such as for micro-cooling.
Relay information about cancerous cells
Enter human bodies and check for physiological problems
->To detect earthquakes, forest fires, etc.
->Used in street lights, etc to conserve Energy
->Also to keep the check on the carbon dioxide emission.
->Also help in building energy efficient buildings.
It is difficult to fit all these devices in a small Smart Dust both size wise and Energy wise.
With devices so small, batteries present a massive addition of weight.
Relatively high power consumption .
Thus can be used only for a short duration burst-mode communication.
Components like active beam-steering mechanism makes the design of the dust mote more complicated.
Design of multi hop network
Autonomous network configuration
Data Fusion
Network Decision making
Large Scale Distribu
The missions considered in this project involve autonomous sensors that might be deployed from a helicopter over a battlefield or from a space probe over a planetary surface. Once deployed, the sensor network must operate autonomously using an ad-hoc wireless infrastructure as sensors are deployed or destroyed or the network is damaged or compromised and then repaired. Appropriate algorithms and protocols must be developed to facilitate automatic, quasi-optimal configuration of sensor applications in response to network damage and repair and without requiring external management intervention.ted Processing
There are many ongoing researches on Smart Dust, the main purpose will to make mote as small as possible and to make it available at a low price.
Soon we will see smart dust being used in varied application from all spans of life!