內(nèi)蒙古工業(yè)大學(xué)畢業(yè)論文·英文參考文獻及譯文(測控)-無線技術(shù)，低功耗傳感器網(wǎng)絡(luò)

1、<p><b>　?。?lt;/b></p><p>　　（英文參考文獻及譯文）</p><p>　　二 〇 一 五 年 六 月</p><p><b>　　文獻翻譯</b></p><p><b>　　譯文</b></p><p>　　ZigBee

2、：無線技術(shù)，低功耗傳感器網(wǎng)絡(luò)</p><p><b>　　加里萊格</b></p><p>　　美國東部時間2004年5月6日上午12:00</p><p>　　技師（工程師）們在發(fā)掘無線傳感器的潛在應(yīng)用方面從未感到任何困難。例如，在家庭安全系統(tǒng)方面，無線傳感器相對于有線傳感器更易安裝。而在有線傳感器的裝置通常占無線傳感器安裝的費用80%的工業(yè)

3、環(huán)境方面同樣正確。而且相比于有線傳感器的不切實際甚至是不肯能而言，無線傳感器更具應(yīng)用性。</p><p>　　雖然，無線傳感器需要消耗更多能量，也就是說所需電池的數(shù)量會隨之增加或改變過于頻繁。再加上對無線傳感器由空氣傳送的數(shù)據(jù)可靠性的懷疑論，所以無線傳感器看起來并不是那么吸引人。</p><p>　　一個低功率無線技術(shù)被稱為ZigBee。一個安全的網(wǎng)絡(luò)技術(shù)，最近通過的IEEE 802.15

4、.4無線標準（圖1），ZigBee的承諾，把無線傳感器的一切從工廠自動化系統(tǒng)到家庭安全系統(tǒng)，消費電子產(chǎn)品包括進來。與802.15.4的合作下，ZigBee提供具有電池壽命可比普通小型電池的長幾年。ZigBee設(shè)備預(yù)計也便宜，有人估計銷售價格最終不到3美元每節(jié)點。由于價格低，他們應(yīng)該是一個自然適應(yīng)于在光線如無線交換機，無線自動調(diào)溫器，煙霧探測器和家用產(chǎn)品。</p><p><b>　　（圖1）</b

5、></p><p>　　雖然還沒有正式的規(guī)范的ZigBee存在（由ZigBee聯(lián)盟是一個貿(mào)易集團，批準應(yīng)該在今年年底），但ZigBee的前景似乎一片光明。技術(shù)研究公司In-Stat/MDR在它所謂的“謹慎進取”的預(yù)測中預(yù)測，802.15.4節(jié)點和芯片銷售將從今天基本上為零，增加到2010年的165萬臺。不是所有這些單位都將與ZigBee結(jié)合，但大多數(shù)可能會。世界研究公司預(yù)測的到2010年射頻模塊無線傳感器出

6、貨量4.65億美量，其中77％是ZigBee的相關(guān)。</p><p><b>　?。▓D2）</b></p><p>　　從某種意義上說，ZigBee的光明前途在很大程度上是由于其較低的數(shù)據(jù)速率20 kbps到250 kbps的，用于取決于頻段頻率（圖2），比標稱為1 Mbps的藍牙和54 Mbps的Wi - Fi的技術(shù)數(shù)據(jù)速率低。ZigBee的不能像Wi-Fi一樣發(fā)送

7、電子郵件和大型文件，或像藍牙一樣傳送文件和音頻。對于發(fā)送傳感器的讀數(shù)，這是典型的數(shù)萬字節(jié)數(shù)，高帶寬是沒有必要，ZigBee的低帶寬有助于它實現(xiàn)其目標和魯棒性的低功耗，低成本。</p><p>　　由于ZigBee應(yīng)用的是低帶寬要求，ZigBee節(jié)點大部分時間可以睡眠模式，從而節(jié)省電池電源，然后醒來，快速發(fā)送數(shù)據(jù)，回去睡眠模式。而且，由于ZigBee可以從睡眠模式過渡到15毫秒或更少主動模式下，即使是睡眠節(jié)點也可以

8、達到適當?shù)牡脱舆t。有人扳動支持ZigBee的無線光開關(guān)，例如，將不會是一個喚醒延遲知道前燈亮起。與此相反，支持藍牙喚醒延遲通常大約三秒鐘。</p><p>　　一個ZigBee的功耗節(jié)省很大一部分來自802.15.4無線電技術(shù)，它本身是為低功耗設(shè)計的。802.15.4采用DSSS（直接序列擴頻）技術(shù)，例如，因為（跳頻擴頻）另類醫(yī)療及社會科學(xué)院將在保持一樣使用它的頻率過大的權(quán)力同步。</p><

9、p>　　ZigBee節(jié)點，使用802.15.4，是幾個不同的溝通方式之一，然而，某些方面比別人擁有更多的使用權(quán)力。因此，ZigBee的用戶不一定能夠?qū)崿F(xiàn)傳感器網(wǎng)絡(luò)上的任何方式選擇和他們?nèi)匀黄谕嗄甑碾姵貕勖荶igBee的標志。事實上，一些技術(shù)專家打算用小型無線傳感器創(chuàng)建大的網(wǎng)絡(luò)，即使功率ZigBee的電池需求很大。</p><p>　　一個ZigBee網(wǎng)絡(luò)節(jié)點可以消耗額外的功率，例如，如果它試圖避免與其他

10、節(jié)點的傳輸或與其他無線電源傳輸重疊的傳輸。那么在ZigBee 802.15.4無線電的使用實現(xiàn)CSMA / CA（載波偵聽多址接入沖突避免）技術(shù)，與ZigBee節(jié)點使用CSMA / CA是基本上采取了聽先于談話的方式，看是否有無線電通信已經(jīng)展開。但是，傳感器營銷公司恩貝爾公司副總裁兼ZigBee聯(lián)盟的副主席Venkat Bahl正如所指出的，這不是一個首選的方法?！坝新犚庖姷臋?quán)力，”Bahl說，“我們不喜歡這樣做?！?lt;/p>

11、<p>　　ZigBee和802.15.4通訊的另一個選擇是指路明燈模式，通常睡覺模式醒來網(wǎng)絡(luò)節(jié)點定期從網(wǎng)絡(luò)的控制節(jié)點接收同步“燈塔”的指令。但是，也因為時間的不確定性，特別是支配節(jié)點打開，以免錯過早期一盞明燈。</p><p><b>　　爭議中的通信</b></p><p>　　為了盡可能節(jié)省電力，ZigBee采用一種簡單交際策略,talk-when

12、-ready發(fā)送數(shù)據(jù)時,數(shù)據(jù)準備派遣然后就等著自動確認。兩ZigBee聯(lián)盟主席和電子802.15,talk-when-ready是“開門見山地”計劃,但卻是一種很有電力效率的策略?！拔覀冊趶V泛的分析,得出了最好的節(jié)能策略”Heile說?！拔覀儼l(fā)現(xiàn),我們在發(fā)送才離開那包東西和承認它。如果你不想讓他查詢反饋信息,它只表示你接收失敗,所以重發(fā)給你。你有更好的電源管理，并確定它是否安靜，然后再確定?！?lt;/p><p>　

13、　幸運的是，這種當面策略導(dǎo)致RF干擾非常小。這主要是因為ZigBee節(jié)點具有非常低的占空比，只偶爾傳輸發(fā)送少量的數(shù)據(jù)。其他ZigBee節(jié)點，以及Wi - Fi和藍牙模塊，可以輕松應(yīng)付這么小，頻繁爆發(fā)。</p><p>　　ZigBee的通話時就緒計劃并不適合所有的目的，但是，例如，在成千上萬的微型傳感器網(wǎng)絡(luò)進入戰(zhàn)區(qū)下降到監(jiān)視敵方部隊調(diào)動，積蓄力量提供的仍可能是不夠的。每個網(wǎng)絡(luò)節(jié)點周期性地發(fā)送和反復(fù)通過網(wǎng)狀網(wǎng)絡(luò)配置

14、中的其他節(jié)點附近多次以達到網(wǎng)絡(luò)控制器的大碰撞和重發(fā)的數(shù)據(jù)包數(shù)量可能會浪費功率，并顯著縮短傳感器節(jié)點的電池壽命傳輸數(shù)據(jù)。如果傳感器電池非常小，功率有限，這特別成問題。</p><p>　　雖然大氣電波訪問競爭不是一般意義上的ZigBee問題，都可以。傳感器網(wǎng)絡(luò)公司塵埃網(wǎng)絡(luò)，說是保持競爭問題，從該公司的ZigBee轉(zhuǎn)向為現(xiàn)在，塵土縱然仍是ZigBee聯(lián)盟的成員。每個ZigBee設(shè)備需要與鄰國爭奪領(lǐng)空， Dust產(chǎn)品管

15、理總監(jiān)羅伯特說：有一些爭論，一些不可避免的低效率。為了避免ZigBee的訪問的爭奪，通信使用免費的TDMA（時分多址）技術(shù)。ZigBee的802.15.4 MAC層通過提供擔保的計劃，有點類似于TDMA的時隙，但只是作為一個可選的“超碼”那更復(fù)雜，更省電，比TDMA的有效組成部分。</p><p>　　它減少了對功能設(shè)備來進行節(jié)能控制，除了更強大的全功能設(shè)備（FFDs）在ZigBee元件提供電力的消耗。每個Zig

16、Bee網(wǎng)絡(luò)至少需要一個控制器作為一個發(fā)展籌資，但有大多數(shù)網(wǎng)絡(luò)節(jié)點的RFDs可以（圖3）。它們含有比FFDs較少的電路，很少或沒有功率消耗的內(nèi)存。</p><p><b>　?。▓D3）</b></p><p>　　ZigBee的節(jié)省，減少了相關(guān)處理仍然需要更多的權(quán)力。簡單的8位像8051處理器可以處理家務(wù)容易的ZigBee和ZigBee協(xié)議棧占用很少的內(nèi)存。發(fā)展籌資的一

17、個堆棧，例如，大概需要32字節(jié)，一個RFD的堆棧只需要4字節(jié)。</p><p>　　從ZigBee的比較簡單的實現(xiàn)，節(jié)約了成本，自然產(chǎn)生。RFDs，減少漏報ZigBee的內(nèi)存和其他電路元件成本，以及簡單的8位處理器和小協(xié)議棧幫助保持系統(tǒng)成本。通常，一個應(yīng)用程序的主處理器可以很容易地承擔了ZigBee的處理功能，額外的負載小，使得ZigBee不必要添加單獨的處理器。</p><p>　　但是

18、，保持ZigBee的低價格的主要策略是因為有很大的市場和高容量。ZigBee聯(lián)盟，通過一個開放的標準，并通過大力推進ZigBee設(shè)備之間的互操作性，ZigBee的預(yù)期應(yīng)用非常大，如家庭與樓宇自動化應(yīng)用。該聯(lián)盟目前正在為這些特殊應(yīng)用努力，它預(yù)計將在今年較遲時與ZigBee規(guī)范1.0的互操作性的程序一起完成。</p><p>　　一個有關(guān)的ZigBee家庭自動化與安全通過樂觀的原因是它的易用性。ZigBee網(wǎng)絡(luò)的自我

19、形成，使消費者更容易對它們進行設(shè)置。“在居住空間，有沒有配置參與”ZigBee聯(lián)盟的Heile說?！澳銖南渥幽靡恍〇|西，放電池進去，可能做一些簡單的按鈕操作，按下安全帶來使兩個設(shè)備并攏，按動按鈕，直到綠色燈光來，你就完成了?！?lt;/p><p>　　ZigBee網(wǎng)絡(luò)還可以自行在商業(yè)和工業(yè)環(huán)境的形式，但專業(yè)安裝人員將有特別的安全工具，提供額外的控制。ZigBee是安全靈活的，Heile說，給消費者和專業(yè)用戶他們需要的

20、?！澳悴槐赜?28位公共密鑰加密的煙霧探測器，”他說，“但如果我在一幢復(fù)雜的高層辦公樓，這正是我的安全級別將有熒光燈。如果你在第五大道上的高層建筑里，你不想去安排人到街上，把你的燈關(guān)了。</p><p><b>　　專利競爭</b></p><p>　　ZigBee的競爭幾乎完全來自主專有技術(shù)。傳感器公司Dust，如上所述，是堅持使用自己的技術(shù)，顯然的，雖然強烈的推到

21、ZigBee舞臺上，計劃繼續(xù)提供其專有Ember Net設(shè)備。</p><p>　　通過提供互操作性，但ZigBee的補充能力，專利產(chǎn)品不能。舉例說，Ember的義巴爾，互操作性允許照明系統(tǒng)的ZigBee節(jié)點的工作，在一個空調(diào)系統(tǒng)的ZigBee網(wǎng)絡(luò)，反之亦然?！帮w利浦照明是真的對這個很興奮，”義巴爾說，“因為原來從一到建筑物的自動化系統(tǒng)的基礎(chǔ)設(shè)施骨干鎮(zhèn)流器生產(chǎn)廠家他們?！?lt;/p><p>

22、　　不用說，主要的半導(dǎo)體公司很多，尤其是那些在嵌入式系統(tǒng)公司中大都熱切期待ZigBee的投入并且大規(guī)模進入市場。飛思卡爾半導(dǎo)體（直到最近，摩托羅拉半導(dǎo)體產(chǎn)品部稱）已經(jīng)提供ZigBee - ready技術(shù)來選擇客戶。其他半導(dǎo)體公司，包括AMI，愛特梅爾，微芯片，飛利浦，瑞薩，都是ZigBee聯(lián)盟的成員。 </p><p>　　ZigBee可能是緩慢滲透到無線傳感器的工業(yè)市場，但是。據(jù)對世界市場研究公司，它會需要五

23、至七年來說服客戶在工業(yè)上的可靠性，耐用性，以及無線傳感器系統(tǒng)的安全。并顯著預(yù)測在整個世界中ZigBee將長期在工業(yè)制造上有增長，因此。到2010年，公司項目，射頻模塊，應(yīng)用于工業(yè)監(jiān)控和控制得將達到1.65億臺，同比增長190萬元，在世界性預(yù)測中，在2004年。大約75％的將基于ZigBee和802.15.4。</p><p>　　最終，ZigBee的可進入各種廣泛的應(yīng)用。家用電器，它可以幫助監(jiān)測和控制能源消耗。在

24、汽車應(yīng)用中，它可以提供輪胎壓力監(jiān)測和遠程無鑰匙進入系統(tǒng)。也可用于ZigBee的醫(yī)療設(shè)備中，甚至在計算機外圍設(shè)備，如無線鍵盤或鼠標。</p><p>　　值得關(guān)注的是越來越多，雖然，ZigBee的可能變成一種適合所有的技術(shù)的尺寸，并不很適合任何應(yīng)用程序。一些持懷疑態(tài)度，例如，企圖使ZigBee無所不包的想法可能使ZigBee協(xié)議棧太大，ZigBee的雙重目標是非常低的功耗和非常低的成本。如果出現(xiàn)這種情況，那么Zig

25、Bee的低功耗，低數(shù)據(jù)速率利基窄，如果它是，將被證明是過于寬泛的。然后，也許我們會需要另一種無線標準，以配合我們已經(jīng)有的蓬勃發(fā)展的人數(shù)。</p><p>　　加里萊格是一家位于波士頓的自由撰稿人。他擁有電子工程學(xué)士學(xué)位，曾任編輯，EDN雜志執(zhí)行編輯。</p><p><b>　　原文</b></p><p>　　ZigBee: Wireless

26、 Technology for Low-Power Sensor Networks</p><p>　　Gary Legg </p><p>　　5/6/2004 12:00 AM EDT </p><p>　　Technologists have never had trouble coming up with potential applications for

27、 wireless sensors. In a home security system, for example, wireless sensors would be much easier to install than sensors that need wiring. The same is true in industrial environments, where wiring typically accounts for

28、80% of the cost of sensor installations. And then there are applications for sensors where wiring isn't practical or even possible.</p><p>　　The problem, though, is that most wireless sensors use too muc

29、h power, which means that their batteries either have to be very large or get changed far too often. Add to that some skepticism about the reliability of sensor data that's sent through the air, and wireless sensors

30、simply haven't looked very appealing.</p><p>　　A low-power wireless technology called ZigBee is rewriting the wireless sensor equation, however. A secure network technology that rides on top of the recen

31、tly ratified IEEE 802.15.4 radio standard (Figure 1), ZigBee promises to put wireless sensors in everything from factory automation systems to home security systems to consumer electronics. In conjunction with 802.15.4,

32、ZigBee offers battery life of up to several years for common small batteries. ZigBee devices are also expected to be cheap, </p><p>　　Although no formal specification for ZigBee yet exists (approval by the Z

33、igBee Alliance, a trade group, should come late this year), the outlook for ZigBee appears bright. Technology research firm In-Stat/MDR, in what it calls a "cautious aggressive" forecast, predicts that sales of

34、 802.15.4 nodes and chipsets will increase from essentially zero today to 165 million units by 2010. Not all of these units will be coupled with ZigBee, but most probably will be. Research firm ON World predicts shipm<

35、;/p><p>　　In a sense, ZigBee's bright future is largely due to its low data rates—20 kbps to 250 kbps, depending on the frequency band used (Figure 2)—compared to a nominal 1 Mbps for Bluetooth and 54 Mbps

36、for Wi-Fi's 802.11g technology. But ZigBee won't be sending email and large documents, as Wi-Fi does, or documents and audio, as Bluetooth does. For sending sensor readings, which are typically a few tens of byte

37、s, high bandwidth isn't necessary, and ZigBee's low bandwidth helps it fulfill its goals of </p><p>　　Because of ZigBee applications' low bandwidth requirements, a ZigBee node can sleep most of t

38、he time, thus saving battery power, and then wake up, send data quickly, and go back to sleep. And, because ZigBee can transition from sleep mode to active mode in 15 msec or less, even a sleeping node can achieve suitab

39、ly low latency. Someone flipping a ZigBee-enabled wireless light switch, for example, would not be aware of a wake-up delay before the light turns on. In contrast, wake-up delays for Blue</p><p>　　A big part

40、 of ZigBee's power savings come from the radio technology of 802.15.4, which itself was designed for low power. 802.15.4 uses DSSS (direct-sequence spread spectrum) technology, for example, because the alternative FH

41、SS (frequency-hopping spread spectrum) would have used too much power just in keeping its frequency hops synchronized.</p><p>　　ZigBee nodes, using 802.15.4, can communicate in any of several different ways,

42、 however, and some ways use more power than others. Consequently, ZigBee users can't necessarily implement a sensor network any way they choose and still expect the multiple-year battery life that is ZigBee's hal

43、lmark. In fact, some technologists who are planning very large networks of very small wireless sensors say that even ZigBee is too power hungry for their uses.</p><p>　　A ZigBee network node can consume extr

44、a power, for example, if it tries to keep its transmissions from overlapping with other nodes' transmissions or with transmissions from other radio sources. The 802.15.4 radio used by ZigBee implements CSMA/CA (carri

45、er sense multiple access collision avoidance) technology, and a ZigBee node that uses CSMA/CA is essentially taking a listen-before-talk approach to see if any radio traffic is already underway. But, as noted by Venkat B

46、ahl, marketing vice presid</p><p>　　Another ZigBee and 802.15.4 communications option is the beacon mode, in which normally sleeping network slave nodes wake up periodically to receive a synchronizing "

47、beacon" from the network's control node. But listening for a beacon wastes power, too, particularly because timing uncertainties force nodes to turn on early to avoid missing a beacon.</p><p>　　In-Y

48、our-Face Communication</p><p>　　To save as much power as possible, ZigBee employs a talk-when-ready communication strategy, simply sending data when it has data ready to send and then waiting for an automati

49、c acknowledgement. According to Bob Heile, who is chairman of both the ZigBee Alliance and IEEE 802.15, talk-when-ready is an "in-your-face" scheme, but one that's very power efficient. "We did an exte

50、nsive analysis that led to the best power-saving strategy in various kinds of environments from quiet to noisy," Heile says.</p><p>　　Fortunately, this in-your-face strategy leads to very little RF inte

51、rference. That's largely because ZigBee nodes have very low duty cycles, transmitting only occasionally and sending only small amounts of data. Other ZigBee nodes, as well as Wi-Fi and Bluetooth modules, can easily d

52、eal with such small, infrequent bursts.</p><p>　　ZigBee's talk-when-ready scheme doesn't suit all purposes, however. For example, in a network of thousands of tiny sensors dropped into a war zone to

53、monitor enemy troop movements, the power savings provided still might not be enough. With each network node sending data periodically—and with transmissions repeated numerous times through other nearby nodes of a mesh ne

54、twork configuration in order to reach a network controller—large numbers of packet collisions and retransmissions could waste powe</p><p>　　Although contention for airwave access isn't generally a proble

55、m for ZigBee, it can be. Sensor-network company Dust Networks, in fact, says contention issues are keeping the company from turning to ZigBee—for now, at least—even though Dust remains a member of the ZigBee Alliance. &q

56、uot;Each ZigBee device needs to contend for airspace with its neighbors," says Dust director of product management Robert Shear, "so there's inevitably some contention and some inefficiency." To avoid

57、ZigBee's access conte</p><p>　　ZigBee has still more power-saving tricks up its sleeve, however. For example, it reduces power consumption in ZigBee components by providing for power-saving reduced-funct

58、ion devices (RFDs) in addition to more capable full-function devices (FFDs). Each ZigBee network needs at least one FFD as a controller, but most network nodes can be RFDs (Figure 3). RFDs can talk only with FFDs, not to

59、 other RFDs, but they contain less circuitry than FFDs, and little or no power-consuming memory.</p><p>　　ZigBee conserves still more power by reducing the need for associated processing. Simple 8-bit proces

60、sors like an 8051 can handle ZigBee chores easily, and ZigBee protocol stacks occupy very little memory. An FFD stack, for example, needs about 32 kbytes, and an RFD stack needs only about 4 kbytes. Those numbers compare

61、 with about 250 kbytes for the far more complex Bluetooth technology.</p><p>　　From ZigBee's relatively simple implementations, cost savings naturally accrue. RFDs, of course, reduce ZigBee component cos

62、ts by omitting memory and other circuitry, and simple 8-bit processors and small protocol stacks help keep system costs down. Often, an application's main processor can easily bear the small additional load of ZigBee

63、 processing, making a separate processor for ZigBee functions unnecessary.</p><p>　　But the main strategy for keeping ZigBee prices low is to have big markets and high volumes. The ZigBee Alliance, by making

64、 ZigBee an open standard and by vigorously promoting interoperability among ZigBee devices, expects that ZigBee will be very big in applications such as home and building automation. The alliance is currently working on

65、interoperability procedures for those particular applications, which it expects to complete later this year along with ZigBee Specification 1.0.</p><p>　　One reason for optimism about ZigBee adoption for hom

66、e automation and security is its ease of use. ZigBee networks are self-forming, making it easy even for consumers to set them up. "In the residential space, there's no configuration involved," says the ZigB

67、ee Alliance's Heile. "You take something out of the box, put the batteries in, and maybe do something as simple as button-press security—bring two devices close together, push the buttons until the green lights

68、come on, and you're done."</p><p>　　ZigBee networks can also self-form in commercial and industrial settings, but professional installers will have tools that provide additional control, particularl

69、y for security. ZigBee security is flexible, says Heile, to give both consumer and professional users what they need. "You don't have to have 128-bit public-key encryption for a smoke detector," he says, &q

70、uot;but if I'm in a high-rise office complex, that's exactly the level of security I'm going to have for my fluorescent light fixtures. I</p><p>　　Proprietary Competition</p><p>　　By

71、 offering interoperability, however, ZigBee adds capabilities that proprietary products can't. For example, says Ember's Bahl, interoperability allows the ZigBee nodes of a lighting system to work with the ZigBee

72、 network of an HVAC system, or vice versa. "Philips Lighting is really excited about this," Bahl, says, "because it turns them from a ballast manufacturer into the infrastructure backbone of a building-aut

73、omation system."</p><p>　　Needless to say, many of the major semiconductor companies, and especially those that are big in embedded systems, are eagerly anticipating ZigBee's entry into mass markets

74、. Freescale Semiconductor (until recently known as Motorola's Semiconductor Products Sector) is already providing ZigBee-ready technology to select customers. Other semiconductor companies, including AMI, Atmel, Micr

75、ochip, Philips, and Renesas, are members of the ZigBee Alliance.</p><p>　　ZigBee will likely be slow to penetrate the industrial market for wireless sensors, however. According to market research firm ON Wor

76、ld, it will take five to seven years to convince industrial customers of the reliability, robustness, and security of wireless-sensor systems. ON World does predict significant long-term growth of ZigBee in industry, tho

77、ugh. By 2010, the company projects, RF modules used in industrial monitoring and control will reach 165 million units, up from 1.9 million in 2004.</p><p>　　Concern is increasing, though, that ZigBee could t

78、urn into a one-size-fits-all technology that doesn't fit any application particularly well. Some skeptics, for example, worry that an attempt to make ZigBee all-encompassing could make the ZigBee protocol stack too l

79、arge for ZigBee's twin goals of very low power consumption and very low cost. If that happens, then ZigBee's low-power, low-data-rate niche—narrow as it is—will have proven to be too broad. And then, perhaps, we&

80、#39;ll need yet another wi</p><p>　　About the Author</p><p>　　Gary Legg is a Boston-based freelance writer. He holds a BSEE degree and is a former editor and executive editor of EDN magazine. He