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020   $a9781558609341
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037   $a97697:97700$bElsevier Science & Technology$nhttp://www.sciencedirect.com
040   $aOPELS$cOPELS
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082 04$a004.6/2$222
100 1 $aKumar, C Bala.$0627548
245 10$aBluetooth application programming with the Java APIs$h[electronic resource] /$cC Bala Kumar, Paul J. Kline, Timothy J. Thompson, Motorola Semiconductor Products Sector.
260   $aSan Francisco, CA :$bMorgan Kaufmann,$cc2004.
300   $axxii, 498 p. :$bill. ;$c23 cm.
440  4$aThe Morgan Kaufmann series in networking
504   $aIncludes bibliographical references (p. [491]-492) and index.
505 0 $aChapter 1 Introduction -- 1.1 Wireless Connectivity -- 1.2 What is Bluetooth Wireless Technology? -- 1.3 Overview of the Bluetooth Stack architecture -- 1.4 What is J2ME? -- 1.5 Why Java Technology for Bluetooth Devices? -- 1.6 Summary -- Chapter 2 An Overview of JABWT -- 2.1 Goals -- 2.2 API Characteristics and Hardware Requirements -- 2.3 Scope -- 2.4 Summary -- Chapter 3 High-Level Architecture -- 3.1 Architecture of JABWT -- 3.2 Bluetooth Control Center -- 3.3 Simple JABWT Application -- 3.4 Summary -- Chapter 4 RFCOMM -- 4.1 Overview -- 4.2 API capabilities -- 4.3 Programming with the API -- 4.4 Summary -- Chapter 5 OBEX -- 5.1 Overview -- 5.2 API Capabilities -- 5.3 Programming with the API -- 5.4 Summary -- Chapter 6 Device Discovery -- 6.1 Overview -- 6.2 API capabilities -- 6.3 Programming with the API -- 6.4 Summary -- Chapter 7 Service Discovery -- 7.1 Overview -- 7.2 API capabilities -- 7.3 Programming with the API -- 7.4 Summary -- Chapter 8 L2CAP -- 8.1 Overview -- 8.2 API Capabilities -- 8.3 Programming with the API -- 8.4 Summary -- Chapter 9 Example Applications -- 9.1 Overview -- 9.2 Tic-Tac-Toe MIDlet -- 9.3 OBEX Application Download -- 9.4 Summary -- Chapter 10 Implementing JABWT on a Device -- 10.1 Porting Process -- 10.2 Steps 1 and 2: Adding J2ME and Bluetooth support -- 10.3 Step 3: Implementing JABWT -- 10.4 Step 4: TCK Compliance -- Chapter 11 Closing Remarks -- Appendix A: Complete Code Examples -- Appendix B: javax.bluetooth.api -- Appendix C: java.obex.api -- References -- Index.
505 0 $aIntroduction -- An overview of JABWT -- High-level architecture -- RFCOMM -- OBEX -- Device discovery -- Service discovery -- L2CAP -- Example applications -- Implementing JABWT on a device -- Closing remarks.
520   $aAdoption of Bluetooth wireless technology has made great strides in the last few years. One of the biggest steps forwardthe standardization of Java APIs for Bluetooth wireless technology (JABWT)is explained in detail in this book. The JABWT standard, defined by the JSR-82 specification, supports rapid development of Bluetooth applications that are portable, secure, and highly-usable. Wireless device manufacturers have responded to the JABWT specification by announcing mobile phones and other products that will run JABWT applications. Bluetooth Application Programming with the Java APIs explains in detail how to write Bluetooth applications using the Java APIs to exploit the power of both technologies. Written by the specification lead for JSR-82 and two other key participants in the definition of JABWT, this book provides the authoritative explanations and concrete examples you need to get started right away. About the Authors C Bala Kumar is a Distinguished Member of the Technical Staff at Motorola. He chaired the industry expert group that defined the Java APIs for Bluetooth wireless technology. He currently leads the systems software team for wireless platforms in Motorola's Semiconductor Products Sector. Paul J. Kline is a Distinguished Member of the Technical Staff at Motorola and the maintenance lead for the JABWT specification. He currently works on the System Software Architecture team in Motorola's Semiconductor Products Sector. Timothy J. Thompson is a Senior Software Engineer on the System Software Architecture team in Motorola's Semiconductor Products Sector. He was the OBEX architect on the JABWT specification team at Motorola. * Written by expertsthe authors led the industry team that defined the JABWT standard and the Motorola team that developed the first JABWT implementation * Covers JABWT in depth and goes beyond the specification to explain how to use the standard effectively * A helpful resource both to Java programmers interested in Bluetooth wireless technology and to business managers interested in its potential for creating new business opportunities * Digs deeply into the programming areas you must master to successfully design and build JABWT applications, including RFCOMM, OBEX, device discovery, service discovery, and L2CAP * Details the real-world issues involved in programming Bluetooth devices and implementing the JABWT specification * Organized into sections that explicitly address the different needs of programmers, business managers, and project managers.
533   $aElectronic reproduction.$bAmsterdam :$cElsevier Science & Technology,$d2007.$nMode of access: World Wide Web.$nSystem requirements: Web browser.$nTitle from title screen (viewed on Aug. 2, 2007).$nAccess may be restricted to users at subscribing institutions.
650  0$aBluetooth technology.
650  0$aJava (Computer program language)
650  0$aApplication program interfaces (Computer software)
650  0$aWireless communication systems.
650 17$aJava (programmeertaal)$2gtt
650 17$aAPI.$2gtt
650 17$aCommunicatiesystemen.$2gtt
655  7$aElectronic books.$2local
700 1 $aKline, Paul J.
700 1 $aThompson, Timothy J.
710 2 $aMotorola Semiconductor Products Sector.
776 1 $cOriginal$z1558609342$z9781558609341$w(DLC)  2003107476$w(OCoLC)53167593
856 40$3Referex$uhttp://www.sciencedirect.com/science/book/9781558609341$zAn electronic book accessible through the World Wide Web; click for information
856 41$zTable of contents$uhttp://www.loc.gov/catdir/toc/els051/2003107476.html
856 42$zPublisher description$uhttp://catdir.loc.gov/catdir/description/els051/2003107476.html
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200 00$aLignocellulosic Biomass
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215   $a1 online resource (312 p.)
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311 08$a3-0365-2474-6 
330   $aRecently, there has been a growing awareness of the need to make better use of natural resources. Hence, the utilization of biomass has led to so-called biorefinery, consisting of the fractionation or separation of the different components of the lignocellulosic materials in order to achieve a total utilization of the same, and not only of the cellulosic fraction for paper production. The use of plant biomass as a basic raw material implies a shift from an economy based on the exploitation of non-renewable fossil fuels, with limited reserves or with regeneration cycles far below the rates of exploitation, to a bioeconomy based on the use of renewable organic natural resources, with balanced regeneration and extraction cycles. To make this change, profound readjustments in existing technologies are necessary, as well as the application of new approaches in research, development, and production."Biorefinery" is the term used to describe the technology for the fractionation of plant biomass into energy, chemicals, and consumer goods. The future generation of biorefinery will include treatments, leading to high-value-added compounds. The use of green chemistry technologies and principles in biorefineries, such as solvent and reagent recovery and the minimization of effluent and gas emissions, is essential to define an economically and environmentally sustainable process.In particular, the biorefinery of lignocellulosic materials to produce biofuels, chemicals and materials is presented as a solid alternative to the current petrochemical platform and a possible solution to the accumulation of greenhouse gases.
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615  7$aResearch & information: general
700   $aRodri?guez Pascual$b Alejandro$4edt$01302974
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