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Wireless Networking Intel Hardware Technology

The Future Of Wireless Sensor Networks 122

Frisky070802 writes "In the 12/03 Wired, Intel's Tiny Hope for the Future describes a fundamental transformation as Intel's Research director David Tennenhouse realized the importance of sensor networks. He saw a Berkeley project on 'motes,' little sensors that communicate on ad-hoc wireless networks. 'The company now foresees networks consisting of thousands of motes, located wherever there's a need for data collection, streaming real-time data to one another and to central servers. Intel imagines the day when every assembly line, soybean field, and nursing home on the planet will be peppered with motes, prodding factory foremen to replace faulty machines, farmers to water fields, and nurses to check on something unusual in room E214.' Intel was impressed enough with the technology to fund a whole 'lablet' to develop it. Intel sees a huge potential market in developing both the sensors and the computation to process the huge amounts of sensor information. If this rings any bells, note that the Intel lablets are also behind the Planetlab Internet emulator, previously discussed in Slashdot."
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The Future Of Wireless Sensor Networks

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  • originality? (Score:4, Insightful)

    by potpie ( 706881 ) on Sunday November 30, 2003 @10:56PM (#7596086) Journal
    Is this idea all that original? It seems to me like this is the kind of thing imagined for wireless communication from the start. We already have wireless communication. We already have programs to monitor things and send data. Is it that inventive just to combine the two?
    • Is this idea all that original? It seems to me like this is the kind of thing imagined for wireless communication from the start. We already have wireless communication. We already have programs to monitor things and send data. Is it that inventive just to combine the two?

      Not really, the hard part is to make these devices really, really small which is useful for a lot of applications (especially in bio sciences). That's where the innovation comes in.
    • Re:originality? (Score:5, Informative)

      by nodwick ( 716348 ) on Sunday November 30, 2003 @11:02PM (#7596117)
      The concept isn't that original anymore, since it's been around for a while. The Berkeley research mentioned in the article, by the way, is most likely the Smart Dust project [berkeley.edu], which was completed in 2001 and spawned a whole slew of related research.

      Having said that, it's not quite as cut-and-dried as you mention. The primary differences from conventional wireless networks like 802.11 are (1) miniaturization, (2) strict power constraints, (3) disposable nature (i.e. ultra-low cost components req'd), and (4) self-organizing. AFAIK it's still an area of active and open research.

      • Re:originality? (Score:4, Interesting)

        by davidgay ( 569650 ) on Sunday November 30, 2003 @11:36PM (#7596259)
        Some amount of misinformation, as usual ;-) A few corrections:

        - The Berkeley lablet was *not* created because of excitement over sensor networks. The Berkeley (and the other) lablets were created as part of a new approach to industrial research labs, in close collaboration with universities. Sensor networks was the first project undertaken at the Berkeley lablet (and, given that it was mentioned, PlanetLab was the second).

        - The UC Berkeley project in question is (currently) the NEST project (http://webs.cs.berkeley.edu), funded by DARPA. This project was inspired by the Smart Dust project, but its emphasis has mostly been on the software (operating systems, languages, networking, applications, etc) rather than the hardware.

        David Gay - not speaking for Intel ;-)
      • Dust Inc. (Score:5, Informative)

        by cpeterso ( 19082 ) on Monday December 01, 2003 @12:49AM (#7596492) Homepage

        Some researchers from UC Berkeley's Smart Dust project have founded a startup in Berkeley called Dust, Inc [dust-inc.com].
    • Re:originality? (Score:5, Insightful)

      by Raindance ( 680694 ) * <`johnsonmx' `at' `gmail.com'> on Sunday November 30, 2003 @11:04PM (#7596125) Homepage Journal
      I believe the inventive concepts here are using mesh, instead of conventional, networks, and having many, many dumb sensors relay information to a smart server (this is done some, but not in the diversity of environments which this inquiry explores).

      These things have not really been comprehensively explored before.

      Heck, we're still waiting for cell phone / WiFi mesh networks, and this is much more aggressive than that.

      RD
      • Re:originality? (Score:1, Interesting)

        by Anonymous Coward
        I just started reading about bluetooth and 802.15. 802.15 calls it WPAN -- wireless personal area networks. From my brief scan of the spec, I think it does go into strange networking configurations.
      • Re:originality? (Score:5, Interesting)

        by calidoscope ( 312571 ) on Monday December 01, 2003 @12:30AM (#7596419)
        These things have not really been comprehensively explored before.

        I beg to differ. A group at Oak Ridge National Labs has been working on this kind of thing for several years now. They were also trying to work on low cost, very low power consumption, self organizing. Their intent was to have the sensors operating in an industrial enviroment and they've done a lot of work optimizing the RF section for minimal susceptibility to interference.

        The big draw for industrial users is that adding wiring is expensive and that they hope the sensors will cost about the same as a few inches of wiring (with all of the associated costs).

        Similar work has been done for several years in respect to the self healing mine fields - having a bunch of mobile mines that will fill in the gap left when a mine disappears. This also requires low power consumption and self organization.

        • Cheap sensor fields could also have many many more interesting applications... not the least of which would be helping those still rather clumsy robots move around in environments... the robots would have less trouble if they could rely on an imaging system that can see things from a lot of angles...

          Sounds like a great idea. Kudos to intel.

          Daniel
    • Re:originality? (Score:5, Insightful)

      by whereiswaldo ( 459052 ) on Monday December 01, 2003 @12:31AM (#7596426) Journal
      Is this idea all that original?

      Not at all. Our body has sensors all over it - we can feel when something touches us with a pretty precise resolution. We also sense heat/cold, wind, wetness, and so on. Amazing.

      We are the ultimate "machine." Emulating ourselves and nature is a smart way to go.

      Where we seek to overcome our weaknesses will turn into specialization. Computers can crunch numbers and correlate raw data faster than we can, but that's their specialized purpose. We, on the other hand, could be dropped on Mars with sufficient of supplies and automatically adapt and survive. We might stub our toes sometimes, but for that weakness we gain in other areas. Someday computers may stub their "toes", too, in order to gain some of our special qualities.
    • This seems like RFID's on steroids, doesn't it? Having one more way to tell me the milk is sour -this time sensing it instead of predicting it- doesnt seem worth millions of dollars worth of research. Plus, the first time I sneeze out a bunch of smart dust, I'm gonna be pissed, and Intel's gonna be out 500 bucks.
      • There are many potential applications for wireless sensor networks. A major one is industrial monitoring and control. The cost of monitoring and controling many industrial processes is not determined by the cost of either the sensor or the readout device, but by the cost of the armored cable needed to send the signal from the process to the control point. In certain industries, like the automotive industry, these cables must be regularly torn out as the factory re-tools for the next new model. Wireless
    • Wireless sensor networks are not new; there is even a textbook published recently on them (Wireless Sensor Networks: Architectures and Protocols [crcpress.com]). Many corporations have active WSN programs, including:

      Motorola [motorola.com]

      Ember [ember.com] and

      Figure 8 Wireless [figure8wireless.com].

      University research programs, in addition to Berkeley, include:

      UCLA WINS [ucla.edu]

      MIT uAMPS [mit.edu]

      plus those sposored by DARPA [darpa.mil].

      The IEEE 802.15.4 standard, available here [ieee.org], was designed to support such networks. The ZigBee Alliance [zigbee.org], an industrial consortium of over 60 compani

    • Reference the originator of Cyber SF, V. Vinge, in the work entitled "A Deepness in the Sky" for a cool take on this idea.
  • Network radiation (Score:4, Interesting)

    by Raindance ( 680694 ) * <`johnsonmx' `at' `gmail.com'> on Sunday November 30, 2003 @10:57PM (#7596092) Homepage Journal
    This is a really cool idea.

    I hope large amounts of radiation/activity in whatever spectrum these networks will use for cross-node and network-to-server communication won't adversely affect things around it. My gut tells me it probably, unfortunately will.

    RD
    • by plover ( 150551 ) on Sunday November 30, 2003 @11:06PM (#7596134) Homepage Journal
      I doubt it. These things are going to be tiny, which means tiny sized batteries, which means they can only sip very tiny amounts of power, which finally means they can only transmit very very tiny amounts of radiation.

      Here's an analogy: think about the visible-spectrum radiation emitted by an LED. Are you concerned about sunburns or skin-cancer from LED radiation? (If so, I'd like to see your computer room...) These motes will be capable of transmitting similar amounts of power. I doubt very much that they'll adversely affect anything with their radiation.

      Their bigger impact will probably be the damage done by the adhesives or fasteners used to stick them to their monitoring posts, or by the hazardous wastes left behind when they're done using them.

      • These things are going to be tiny, which means tiny sized batteries

        Then its gonna be a cast iron bitch changing them when they go flat

        • I'm pretty sure you meant this as a joke, but that's one of the [dis]advantages of this system: you simply add more sensors to replace those which have died. The new sensors "understand" the task at hand and start performing their function without further configuration, etc. The network just integrates the new data arriving from the new sensors, and it doesn't matter if the old sensors stop sending.

          I included an optional "dis" in there because that means abandoning dead sensors in place is also the che

    • by krbvroc1 ( 725200 ) on Sunday November 30, 2003 @11:12PM (#7596152)
      This is a really cool idea

      Doesn't the whole concept seem kind of Orwellian? Doesn't the following quote from the article disturb you?:

      Deployed the way Tennenhouse envisions, the networks will require zero human input. We'll reap the benefits without having to interact with the networks, and Intel will eliminate a long-standing obstacle to its growth: the feebleness of the human brain. "Sensor nets let us relieve the human being of the responsibility of drawing information out of the physical world," says Tennenhouse. "We need to have computers anticipating our needs and sometimes taking action on our behalf."

      It bothers me - sounds like SkyNet or something. Not to even mention the environmental waste/radio interference for all these machine.
      • Well... (Score:4, Insightful)

        by Azureflare ( 645778 ) on Monday December 01, 2003 @12:31AM (#7596423)
        Isn't it possible to have maintenance bots that are utilized by the "smart" computer, and when the "smart" computer isn't able to receive or send stuff to one of the "dumb" motes, a maintenance bot or two goes out and cleans up the "dumb" motes remains? Once this idea gets really powerful, I could see this happening. (though the AI required still has a ways to go..)

        Also, I think you're right about the orwellian aspect; but I figure this is going to happen anyways. Technology is powerful. There are those who wish to hold power over others. If you look at history, you'll find a hell of a lot of the buggers! And those who want power, will find these wonderful new tools, and put them to their uses. I don't like it, but I think it's the other edge of that double-edged sword called Technology.

        The only solution is to (a) put into place systems to keep those people from abusing the technology or (b) wait until they abuse it, and hopefully a structure will come into place through intense struggle that will keep it from happening again.

      • Sssh! The dust...I think it's following me..
  • by mattjb0010 ( 724744 ) on Sunday November 30, 2003 @10:58PM (#7596099) Homepage
    This could be really useful for monitoring kids at the sleep lab where I do some work. It's hard enough just getting a myriad (EEG, EOG, ECG, O2, CO2, etc.) of sensors stuck on a kid, the fact that you then end up with huge mass of wires causes all sorts of problems, making it hard for the kid to get to sleep, plus there's the tendancy to pull on the leads, totally destroying the signal (often several times a night).
    • This was covered Ready to Ware [216.239.39.104] in the October 2003 issue of IEEE Spectrum, now only available in the Google cache linked in this sentence.

      It specifically covers "[a]n e-textile shirt from New York City-based Sensatex, Inc. [which] promises to put an end to SIDS by alerting parents the moment a baby stops breathing." Other bits of the article talk about the U.S. Navy's Wearable Motherboard project, and other smart fabrics capable of accomplishing the tasks of which you speak.

      If your lab has a grant appl

  • by jeffhot ( 646311 ) on Sunday November 30, 2003 @11:00PM (#7596104) Homepage Journal
    Isn't this like what http://www.woz.com/ is working on, only with a bigger dream (less likely to happen soon)?
  • by Scrameustache ( 459504 ) on Sunday November 30, 2003 @11:01PM (#7596112) Homepage Journal
    By Vernor Vinge is a very good book that uses that concept a lot.

    It discuss, amongts other topics, the consequences of total information awarness brought by a technology similar to this (but better, because its sci-fi, not sci-fact).
    • this thread is going a bit offtopic, but since I posted the thread, I'll take the liberty :).

      Vinge's two novels in this space (Deepness in the Sky, Fire in the Deep) are absolutely outstanding, and yes, they envision that level of interconnected sensors. But for that matter, so do many SF novels and shows. The key here, as other posters have commented, is tackling the difficult challenges of scale, unreliable components, environments (imagine what a heavy windstorm does to motes scattered on the ground)

      • He also used them previously in The Peace War and Marooned in Real-Time. (Naismith scatters his property with burr-like sensors, etc.) Not as sophisticated, but the technology of science-fiction was less advanced then. :^P
    • As long as we're plugging Vinge, someone should mention _Fat_Times_at_Fairmont_High_ (I think I just did), a novella he just wrote playing with these themes in a very near-future context. Someone upthread mentioned how these things will eventually build up as chemical polution -- eventually I guess we'll need them biodegradeable (one of the plot-lines in the story). That novella is becoming true at an alarming rate (not long ago, I took a 'local' test) so I highly recommend it to everyone here.
      • As long as we're plugging Vinge, someone should mention _Fat_Times_at_Fairmont_High_ (I think I just did), a novella he just wrote playing with these themes in a very near-future context. Someone upthread mentioned how these things will eventually build up as chemical polution

        Like in Neil Stephenson's book. The "toner" wars and the ensuing asthmatic deaths.

        Yeah, I'm a sci-fi geek, not a techno geek : )
      • Well, not quite. You may recall, in the novella, copyrights had been reduced to about 5 years to reflect the ridiculously fast pace of life. I can't envision anything short of revelation of a conspiracy involving Jack Valenti, Michael Eisner, Orrin Hatch, Osama Bin Ladin, Saddam Hussein, and Kim Il Jong that would start us down that road.
        • Alternatively, what if China becomes a first world country? Their intellectual property system is virtually non-existant. Either China will start cracking down on piracy (more likely; this is what happened in America around 1900), or else the massive economic benefits they will receive from a weaker system of intellectual property will force America to adapt (less likely, but possible).
    • I saw that parallel to Pham's tools in that book as well. It's mostly just a question of size I think. It makes for some very interesting possibilities.

      Jason
    • by Thagg ( 9904 )
      Vinge wrote about localizers in the very good A Deepness in the Sky after talking to the people at Ather Wire and Location [aetherwire.com].

      I went to a presentation by the principals of Aether Wire about eight years ago, at that point they had working localizers that were about the size of a stack of two or three quarters. These devices use Ultra-Wide-Band signalling for extremely low-power low-probability-of-intercept communication. The UWB pulse-trains they were using were remarkably able to penetrate thin metal walls
    • Mod parent up! Great book! I read the /. article and immediately thought: Deepness in the sky. Vinge is one of the most "novel" sci-fi novelists.
    • In his "Peace on Earth" (1987), Stanislaw Lem provides a view into nanotechnology possibilities and consequences, in his usual brilliant satiric style. It even contains an embedded essay - "The Upside-Down Evolution", which predicts a micro- and nano- directions in the evolution of warfare.

      But his first insight of power of self-regulated networks of micro-robots is provided in his novel "The Invincible", written as early as in 1964.

      Too bad that Lem is known in the USA mainly by Hollywood's bastardisation
  • A sci-fi novel I really enjoyed, 'A Deepness in the Sky' (by Vernor Vinge), has a lot of fun with these types of networks. Great to see some development in this area...
  • Locators (Score:3, Interesting)

    by squarooticus ( 5092 ) on Sunday November 30, 2003 @11:09PM (#7596145) Homepage
    I'm sure I'm not the only one wondering how far off we are from Pham's locators from Vernor Vinge's A Deepness in the Sky. Having a mobile sensor network floating in the air that you can use for surveillance may seem Orwellian at first blush, but that isn't the case if we all have access to such technology.
  • Was this not covered in some degree, albeit a non-biological fashion/premise, in The Diamond Age? The talk of motes and dust and sprites all seem to be familiar.
  • by tftp ( 111690 ) on Sunday November 30, 2003 @11:21PM (#7596196) Homepage
    Without a good security these wireless meshes soon will become a plaything for script kiddies. Not even mentioning terr'ists... who knows how much one can mess up the system if you know what you are doing.

    Looks like another dream world to me, even less real than IPv6 is.

    • Security will definitely be an issue, since with all the transmitting, anyone close enough will be able to pick up the frequencies (though probably not your average joe script kiddie).
      • This is true, but only if you need higher sensitivity and higher power level, to for example affect meshes that are far from you. But this often is not needed, such as inside buildings.

        If the mote can receive transmissions from other motes, then the kiddie only needs to hack a mote to get a set of working receiver and transmitter. For example, a regular fire alarm mote can be used to send a "Fire Alarm" message when the teacher asks him where is his homework :-)

        With low cost and widespread usage of mote

    • What do you mean soon? Every computer package in the newspaper seems to include a WiFi router these days. Odds are the things are configured for Magic Box users so they "just work".

      You could build an interesting mesh out of all those WiFi boxes. Hopefully for better uses than this idiot [canoe.ca].

      • My fault, I don't read newspapers :-)

        But if so, odds are that the 2.4 GHz spectrum will become so saturated with clueless users' useless networks, it will deny access to anyone, and then things just break down.

        This is not a guess, this is already a fact where I work. 2.4 GHz telephones are useless here (nothing but clicking and noise), and 2.4 GHz networks work in short bursts, and very unreliably. We stopped using 802.11G already, so useless it became.

    • encription is a fairly easy thing to do, even something as primitive as the enigma could make it more of a hastle than it is worth for any terrorist and blow any script kiddie's mind away. and even if they did gain access, what good would it do??? all they could do is mess with statistics and as we all know statistics are all fake anyways.
      • Encryption is a very difficult thing to do, but not because of software. Planning, key management and physical security of keys (where applicable) are the tough parts.

        With regard to "statistics", probably a wireless network that measures rainfall in some field is indeed a low value target. However what would you say about building access controls, door locks, cameras, card readers, store inventory controls, payment mechanisms? It all depends on how much the technology will be misused. Given that humanity

    • Exactly right. Security, in wireless sensor networks, means more than just encryption (for privacy), however. In many applications it's more important to have message integrity and sender authentication, meaning that the recipient is guaranteed that the message hasn't been altered, and that it was from who it says it was from. For example, having an encrypted message from a short-range wireless light switch is often of little utility; people around can see the light come on (perhaps through a window), so

  • Also at ETCon 2003 (Score:5, Informative)

    by Twid ( 67847 ) on Sunday November 30, 2003 @11:26PM (#7596208) Homepage
    I saw Berkeley and Intel also present on this technology at O'Reilly's Emerging Technology Conference in 2003. The presentation synopsis is here, although the presentation sadly is not:

    http://conferences.oreillynet.com/cs/et2003/view/e _sess/3797 [oreillynet.com]

    They are doing amazing sci-fi type stuff with their Motes already, it was a pretty amazing presentation, touching on swarm behavior, conspiracy theories, technical deployment issues, and just plain good-old fun hackery. The wired article really should have mentioned that serious hobbyists can purchase a mote starter kit and other stuff here:

    http://www.xbow.com/Products/Wireless_Sensor_Netwo rks.htm [xbow.com]

    Note that there is a classroom starter kit. I would think this sort of stuff would get high-schoolers really excited about science. A great stocking stuffer for your local high-school (although at $1,000 or more maybe a little out of my budget).

    Imagine a Beowulf cluster of..... never mind. :)
  • Like the patient's vitals somehow slipping and not being noticed despite the perfectly good monitors used currently in hospitals? I'm reminded of an urban legend said to take place in a South African hospital. Seems that whoever occupied a certain bed in the ICU would kick off during the night. Turns out that the night cleaning person would unplug the breathing machine for that one patient in order to run a floor polisher.
  • Specifically "A Deepness in the Sky", where his whole book centers on such 'motes', with the ability to say, stick 3 around an eye socket with a little spittle and one near your ear and you've got a wireless communications headset (with video) .. or to monitor temperatures and movement throughout a spaceship .. or etc. etc.

    Maybe if more CEOs and 'Directors' read more science fiction they'd have more "ideas" on where to go with their research.
  • by nb caffeine ( 448698 ) <nbcaffeineNO@SPAMgmail.com> on Sunday November 30, 2003 @11:57PM (#7596321) Homepage Journal
    The company I interned for this summer had some of this going on: we had tags we would place on residents for certain purposes (ones that would detect urine in an adult diaper, would alert nurse if a resident pissed themself, and wouldn't sit in thier own piss till a nurse came to check, cut down on urinary tract infections, as well as ones that would detect if a person with alzimers wandered too far from their room, that sort of thing). While not in an ad hoc network style, these would at least alert the nearest CNA that something was ary. And if the alert went unchecked, it would go up the chain of command, possibly to the point where the head nurse or director of the home would be notified, and someones ass would be in trouble. Was an interesting application, though i wasnt lucky enough to have worked on them. I got to work on the CRM software. woo and stuff.
  • by t0qer ( 230538 ) on Sunday November 30, 2003 @11:58PM (#7596325) Homepage Journal
    Of a B-52 Bomber raining motion sensors down on a city. I doubt they would have much tactical use in a non-urban enviroment due to it being so spread out, but in cities being able to tell what's moving on every street corner would kick ass.
    • by Comatose51 ( 687974 ) on Monday December 01, 2003 @12:55AM (#7596512) Homepage
      Not true. According to my professor who's working on sensor networks, the military has already tried them out in Iraq. Iraq is well-suited for such things because it is mostly deserts.

      Sensor networks would have a lot of difficulties in an urban setting because of buildings. Buildings present challenges to localization of the sensor network. Two sensors can be right next to each other but still can't communicate because a wall is in the way. Furthermore, GPS is hard to receive in an urban setting. Thus, the network must first localize relative to each other then hope that a few of the nodes can recieve GPS to serve as "beacons" to localize the rest of the network.

      In other words, sensor networks are more likely to succeed in an non-urban environment first than an urban environment.

      Localization is a major problem for these networks because of the lack of processing power and lower transmission radius. However, localization will inevitably involve graph theory and graphs are not the easiest thing to solve. Thus, you can see the trade-offs as the nodes get smaller and smaller and have less resources available.
  • FYI (Score:4, Informative)

    by saikatguha266 ( 688325 ) on Monday December 01, 2003 @12:18AM (#7596388) Homepage

    the Planetlab Internet emulator

    Planet-Lab is not an emulator. It is a group of computers distributed across the globe that use the real internet. People write distributed apps and run them on different vantage points spread out on the net to measure real internet performance, test their app etc.

    • Two responses to this. First, I was merely quoting the slashdot article that described Planetlab that way in the first place. But second, I don't think it's so far off, or at least is as accurate as your description. The distributed apps are primarily to manage network protocols that would run on a "virtual internet" rather than the real thing, to try things out before they make it to the real world. In fact, it provides a grid-like application infrastructure that makes it capable of running arbitrary
  • How convenient... (Score:4, Insightful)

    by jdybnis ( 4141 ) * on Monday December 01, 2003 @12:48AM (#7596489)
    How convenient...for a company that sells microprocessors ;). As market the penetration of PC's approaches 100%, Intel envisions a future in which everybody needs to have thousands (or millions) of devices with a microprocessor, instead of a just a handful. And of course they require zero human input. Nobody could operate or pay attention to thousands of devices at once.
    • Well it is natural for a business to try and ensure its continued existence by trying to predict the future, and if possible influence it.

      As far as how many processors you 'need', already the number of PC based 32 (&64) bit processors around you are totally swamped by embedded processors (>99% of processors sold are 8 or 16 bit), many of which require zero human input and may operate for 10 years or more. A large commerial building may have >> 10^4 embedded processors in it (light fittings, t

  • motes (Score:5, Informative)

    by veci ( 728478 ) on Monday December 01, 2003 @12:49AM (#7596493)
    Hi! I am working with these Berkeley motes in the last two years. They are getting better, but still rather resource constrained. There are two research prototypes: MICA and MICA2, both basically have:

    ATMega128 7.3 MHz microcontroller
    4 KB RAM, 128 KB PROGRAM EEPROM,
    512 KB flash memory for measurements
    433 MHz wireless radio, CC1000 transciver,
    30 messages per second, 29 bytes in each message
    radio range is about 100-300 feet
    runs on two AA batteries for 3 days continuously
    various pluggable sensor boards

    The motes run the TinyOS, freely available from sourceforge [sourceforge.net]

    The Berkeley guys are working on the dust mote, 1 mm2 target size including the radio chip. The biggest limitation now is the battery power and the radio range. Even if they can get the size down to "dust", the antenna HAS TO BE 1/4 of the radio wave length. For the 433 MHz version this is around 8-10 inches! So these dust motes will have "tails". Eventually, these could painted on the wall, or dumped from the air for millitary applications. Lot's of unsolved problems. For sensor networks, how do you obtain large amount of data through a few base stations? Smart aggregation and routing protocols need to be employed, and the network must process the data by itself.

    Just my 2c.

    • Re:motes (Score:1, Funny)

      by Anonymous Coward
      >> The Berkeley guys are working on the dust mote, 1 mm2 target size including the radio chip.

      What would happen if I inhale one of these?
    • Some quick corrections to your list.

      "ATMega128 7.3 MHz microcontroller" -- The MICA has an ATMega128 clocked at 4MHz (and the original version had an ATMega103).

      "433 MHz wireless radio, CC1000 transciver" -- The MICA has a 433MHz RFM radio. The MICA2 comes with either a 433MHz or 916MHz Chipcon 1000 radio.

      Though, corrections with respect to the MICA are not especially significant, since you'd really rather be working with the MICA2.

      Even if they can get the size down to "dust", the antenna HAS TO BE
  • by Animats ( 122034 ) on Monday December 01, 2003 @01:09AM (#7596548) Homepage
    The big problem with all this stuff is that it runs on batteries. We have too much stuff now that needs battery replacement. If it transmits much, it's going to need more power than a coin cell can provide for a year.

    Wireless power transmission is a possibility. At low power levels, it's quite feasible. That's how RFID tags work, after all. In controlled spaces, like hospitals, airports, aircraft, and prisons, it could work.

    • ABB has a version of an inductive cage which provides power to wireless sensors around a robot.
      It has been developed using bluetooth, then modified for power-conservation and better realtime characteristics. It stays longer in hibernation then sends important sensor data on several of the bluetooth bands for a higher probability of success with less time for link negotiations.

      Their "standard" is called WISA (Wireless interface for sensors and actuators), here's an article in swedish [nyteknik.se], though the magnetic p [abb.com]
    • A more practical alternative is energy scavenging--the use of alternative energy sources available in the node's environment.

      One example is the use of piezoelectric techniques to recover energy from vibration (the famous shoe generator [computer.org]). (Electromechanical and magnetomechanical conversion means may also be used.) Others have already suggested photoelectrics. Other possibilities include changes in air temperature and pressure (which powers the Atmos clock [clockmaker.com]) and even consumption of sugar [uwe.ac.uk].

      A book on energy

  • for on body sensor networks.

    it will be the next ui. accelerometers built into gloves, arm, all that. real gesture reckognition.

    unless of course neural systems break first.

    i hate how age makes me worried about whether or not i should post supposedly obvious things like this. capitalism bites.
  • by TheRealStyro ( 233246 ) on Monday December 01, 2003 @01:29AM (#7596606) Homepage
    Let see, thousands of tiny mote sensors spread throughout your living environment. Does the convenience factor outweigh the privacy factor? I can see law enforcement and marketing corps loving this whole idea. Some future attorney general might try to make embedding these into most consumer products and fabric a requirement.

    Law enforcement could use these motes for cheap surveillance and community monitoring. Just think of it - some of the motes would be equipped with mics and DSPs and could be easily enabled by the consumer and/or law enforcement. Other motes would register heat/cool (for A/C & heat control) and could also track people and animals. Heck, specialized motes could be built to detect illegal drug use (pot/crack fumes). Detectives wouldn't even have to get next to your house seeing how you bought that slick wireless router (you had to since owning a wired router would brand you a terrorist with something to hide).

    Madison Ave marketing would also love motes. Advertisers could use motes to determine the best time to call you (when you are home) and the best time customize your commercials (when you watch tv). How about a great rate on home insurance - only it will be terminated the moment the sensors pickup impending doom (water leak, structural damage, etc). With consumer electronics going wireless advertisers could have a field day tracking what you buy and how you act to determine what they should market to you.

    Then think about the convenience - the A/C-heater could adjust the temp for the room you are in, the whole house, or some pattern possibly based on your behavior. Lights that turn on only for the rooms that are occupied, and to the level the person in that room wants. How about motes that detect that you haven't moved in 24 hours and alerts rescue/coroner. Hey, motes that listen for and act upon your command - "computer - music - light jazz - New Orleans bar after 2am" (motes play recording of bartender telling you the bar is closing and to get the hell out - only not that politely). Motes could tell you your oldest son is smoking in his room, daughter has lit some candles, teenage son is 'enjoying himself', the baby could use changing, and the wife is cheating on you (that wasn't your stain on the bed sheets). All that and more...

    The motes could make your life great - in exchange for some privacy. What the heck, you have nothing to worry about as long as you are a law abiding, patriotic (to the current admin, not to the Constitution), well-adjusted citizen...
    • Interesting points you raised. Navy's been working on some things that will be quite useful for several years now; one is a condition sensor based on accelerometers. The devices reside on a chip and use a neural network to determine when a piece of machinery needs serious attention. A different device senses oil quality and calls for an oil change when chips or burnt oil are detected. These are being designed for installation in Ship Service Diesel Generators, so you know they are being designed for ver
  • Ever heard of Dust Inc.? http://www.dust-inc.com/ From their website: DUST TECHNOLOGY Wireless Machine-to-machine Connectivity Dust Inc.'s wireless networking technology integrates objects and conditions in the physical world with data networks. They enable automated awareness and control of the physical environment. Network nodes deliver sensing, communication, logic and control into equipment, objects and environments Local mesh networks enable robust routing of data and instructions between nodes Gat
  • by bboy_doodles ( 170264 ) on Monday December 01, 2003 @02:10AM (#7596688)
    Being a graduate student at MIT working on sensor networks, I have to mention our project. : )

    http://www-mtl.mit.edu/research/icsystems/uamps/uA MPShome.html [mit.edu]

    The uAMPS project will involve designing integrated circuits that realize wireless sensor networks. There are students researching low power integrated circuits - both analog and digital. I'm doing the wireless stuff.

    You have to be careful to separate the hype from reality regarding sensor networks, but there are definitely some cool applications. One thing that I think will definitely help things progress is the new 802.15.4 standard (Zigbee).

    doodles
  • TinyOS and NesC (Score:2, Interesting)

    by roundand ( 145497 )
    This stuff uses an open source OS, TinyOS [berkeley.edu] which is written in and includes the language nesC [sourceforge.net], "an extension to the C programming language designed to embody the structuring concepts and execution model of TinyOS. TinyOS is an event-driven operating system designed for sensor network nodes that have very limited resources (e.g., 8K bytes of program memory, 512 bytes of RAM)."

    Over the last couple of days I downloaded [berkeley.edu] and installed TinyOS 1.1.0 for windows (146Mb!) which includes nesC, an emulator, a tutorial
  • ... they don't know there's no planets between Earth and Mars Intel@Berkeley [intel-research.net]

    From the Intel at Berkeley site, the page about e-mailing Mars. Tt says planets getting in the way is one problem. As far as I know, no planets come between Earth and Mars!
  • This sounds like the right thing for telemetry and control systems. Perhaps they will fit them in the wing flaps and engines on airliners, so they don't need to go to the expense of laying wires or fibre. Or maybe they should fit them in the reactor core of nuclear power stations, so that the reaction can be moderated if it gets to hot. Again, they wouldn't need to go to the expense of laying wires or pneumatic lines. These would be good tests of thier reliability. Another application would be for the brak
  • As mentioned before by many slashdotters the motes (mica) have a huge resource constraint problem. I have been working on motes for the past two years..The sound sensors are really really weak and inaccurate. We have been trying to get accurate sound sensor readings for a long time. Say you are applying varying amplitude of sound near a mote. Though the readings changes, they are neither linear nor follow a consistent pattern.. anyway, there is a long way in terms of the OS design and sensors..
  • In addition to research-grade and hobbyist software and hardware, some companies are beginning to sell more user-friendly stuff. Sensicast Systems [sensicast.com] in particular offers a couple of software products for Crossbow MICA2 [xbow.com] sensor boards. Of particular interest is the Development System software which allows a user with Xbow nodes to configure them and aggregate data from them into a database -- great for people just wanted to try to get their own sensor network running. They also have their own "H900" wireless

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