GLOSARIO

GLOSARIO
6LoWPAN
IPv6 BASED LOW POWER WIRELESS PERSONAL AREA NETWORK
ACK
ACKNOWLEDGEMENT
ADC
ANALOG TO DIGITAL CONVERTER
AM
ACTIVE MESSAGE
AoA
ANGLE OF ARRIVAL
ARQ
AUTOMATIC REPEAT REQUEST
ASIC
APPLICATION SPECIFIC INTEGRATED CIRCUIT
CD
COMPACT DISK
CIR
CHANNEL IMPULSE RESPONSE
CPU
CENTRAL PROCESSING UNIT
CRC
CYCLIC REDUNDANCY CHECK
DSSS
DIRECT SEQUENCE SPREAD SPECTRUM
EXT3
THIRD EXTENDED FILE SYSTEM
FEC
FORWARD ERROR CORRECTION
FHSS
FREQUENCY HOPPING SPREAD SPECTRUM
FIFO
FIRST IN FIRST OUT
GPS
GLOBAL POSITION SYSTEM
GUID
GLOBAL UNIQUE ID
HARQ
HYBRID ARQ
ISM
INDUSTRIAL SCIENTIFIC AND MEDICAL
ISP
IN SYSTEM PROGRAMMER
JNI
JAVA NATIVE INTERFACE
KNN
K-NEAREST-NEIGHBOR
LOS
LINE OF SIGHT
LR-WPAN
LOW RATE WIRELESS PERSONAL AREA NETWORK
MAC
MEDIUM ACCESS CONTROL
MEMS
MICRO ELECTRO MECHANICAL SYSTEMS
M-FSK
MULTI LEVEL FREQUENCY SHIFT KEYING MODULATION
MIG
MESSAGE INTERFACE GENERATOR
ML
MAXIMUM LIKELIHOOD
75
LOCALIZACIÓN EN INTERIORES USANDO REDES INALÁMBRICAS DE SENSORES
M-PSK
MULTI LEVEL PHASE SHIFT KEYING MODULATION
M-QAM
MULTI LEVEL QUADRATURE AMPLITUDE MODULATION
MRD
MULTI RADIO DIVERSITY
MS
MOBILE STATION
MTA
MAIL TRANSPORT AGENT
MUA
MAIL USER AGENT
NACK
NEGATIVE ACKNOWLEDGEMENT
NLOS
NON LINE OF SIGHT
NTFS
NEW TECHNOLOGY FILE SYSTEM
OEM
ORIGINAL EQUIPMENT MANUFACTURER
O-QPSK
OFFSET QUADRATURE PHASE SHIFT KEYING
OS
OPERATING SYSTEM
PC
PERSONAL COMPUTER
PDP
POWER DELAY PROFILE
PHY
PHYSICAL LAYER
PIT
POINT IN TRIANGULATION
PLL
PHASE LOCKED LOOP
QoS
QUALITY OF SERVICE
RAM
RANDOM ACCESS MEMORY
RFA
REQUEST FOR ACKNOWLEDGEMENT
RFID
RADIO FREQUENCY IDENTIFICATION
RISC
REDUCED INSTRUCTION SET COMPUTER
ROM
READ ONLY MEMORY
RSS
RECEIVED SIGNAL STRENGTH
SNR
SIGNAL TO NOISE RATIO
SPaC
SIMPLE PACKET COMBINING
SVR
SUPPORT VECTOR REGRESSION
TDMA
TIME DIVISION MEDIUM ACCESS
TDoA
TIME DIFFERENCE OF ARRIVAL
ToA
TIME OF ARRIVAL
UHF
ULTRA HIGH FREQUENCY
URL
UNIFORM RESOURCE LOCATOR
USB
UNIVERSAL SERIAL BUS
JOSÉ CARLOS REYES GUERRERO
76
ANEXO A. ENTORNO DE DESARROLLO
UWB
ULTRA WIDE BAND
VCO
VOLTAGE CONTROLLED OSCILLATOR
WLAN
WIRELESS LOCAL AREAL NETWORK
WPAN
WIRELESS PERSONAL AREA NETWORK
WSN
WIRELESS SENSOR NETWORK
77
BIBLIOGRAFÍA
[1] Neal Patwari, “Location Estimation in Sensor Networks”. University of Michigan,
2005.
[2] Pahlavan, Li, Mäkelä, “Indoor geolocation science and technology”. IEEE
Communications Magazine, February 2002.
[3] Patwari, Ash, Kyperountas, Hero, Moses y Correal, “Locating the nodes” IEEE Signal
Processing magazine, July 2005.
[4] Aaron C. Ault, “Evaluation of Received Signal Strength for Localization in Sensor
Networks” Thesis. Padue University, Dec 2005.
[5] Gezici, “A survey on wireless position estimation”. Wireless Personal
Communications, 2008.
[6] Eva M. García Polo, “Técnicas de Localización en Redes Inalámbricas de Sensores”.
[7] Luis Díaz-Ambrona Tabernilla, “Sistema de Localización en Interiores”, Trabajo fin
de carrera. Universidad Politécnica de Madrid.
[8] Hightower, Borriello, “Location Sensing Techniques”, July 2001.
[9] Hightower, Borriello, “Location Systems for Ubiquitous Computing”, Aug. 2001.
[10]Shashank Tadakamadla, “Indoor Local Positioning System for ZigBee based on
RSSI”, Mid Sweden University, 2005.
[11]Miguel Rodríguez, Juan P. Pece y Carlos J. Escudero, “Blueps: sistema de
localización en interiores utilizando Bluetooth”.
[12]Mortaza S. Bargh & Robert de Groote, “Indoor Localization Based on Response
Rate of Bluetooth Inquiries”.
[13]Bahl P. & Padmanabhan V. N.: RADAR: An in-building RF-based user location and
tracking system. In Proceedings of the IEEE INFOCOM '00 (March, 2000).
[14]Niculescu D. & Nath, B.: DV based positioning in ad hoc networks. In Journal of
Telecommunication System (2003).
[15]Nagpal R., “Organizing a Global Coordinate System from Local Information on an
Amorphous Computer”, A.I. Memo 1666, MIT A.I. Laboratory, August 1999.
78
ANEXO A. ENTORNO DE DESARROLLO
[16]He T., “Range-Free Localization Schemes for Large Scale Sensor Networks”,
MobiCom ’03, September 14-19, 2003, San Diego, California, USA.
[17]Priyantha N. B., Chakraborty A., & Balakrishnan H.: The cricket location-support
system. (págs. 32-43). New York, USA: Proceedings of the 6th annual international
conference on Mobile computing and networking (MobiCom '00). ACM Press
(2000).
[18]Savvides, A., Han, C.-C., & Strivastava, M. B.: Dynamic fine-grained localization in
ad-hoc networks of sensors. (págs. 166-179). New York, USA: Proceedings of the
7th annual international conference on Mobile computing and networking
(MobiCom '01). ACM Press (2001).
[19]S. Gezici, Z. Tian, G.B. Giannakis, H. Kobayashi, A.F. Molisch, H.V. Poor, and Z.
Sahinoglu, “Localization via ultra-wideband radios,” IEEE Signal Processing Mag.,
vol. 22, no. 4, pp. 70–84, July 2005
[20]Jennifer Yick, Biswanath Mukherjee & Dipak Ghosal, “Wireless sensor network
survey”. Computer Networks 2008.
[21]Akyildiz, Su, Sankarasubramaniam & Cayirci; “Wireless Sensor Networks: A
Survey”. Computer Networks Journal, March 2002.
[22]Akyildiz, Vuran, Akan & Su: “Wireless Sensor Networks”, REVISITED, Computer
Networks Journal 2005.
[23]C.S. Raghavendra, Krishna M. Sivalingam & Taieb Znati, “Wireless Sensor
Networks”. Kluwer Academic Publishers, cop. 2006.
[24]Weilian Su. Özgür B. Akan, and Erdal Cayirci, “Communication Protocols for Sensor
Networks”. Wireless Sensor Networks. 2006.
[25]IEEE 802.15.4a-2007 Wireless Medium Access Control (MAC) and Physical Layer
(PHY) Specifications for Low-Rate Wireless Personal Area Networks (WPANs).
[26]ZigBee: wireless control that simply works, http://www.zigbee.org.
[27]HART- The Logical Wireless Solution, http://www.hartcomm2.org/hart_protocol
/wireless_hart/hart_the_logical_solution.html.
[28]ISA100.11a,
http://www.isa.org/MSTemplate.cfm?MicrositeID=1134&CommitteeID=6891
[29]6LoWPAN, < http://6lowpan.tzi.org/>.
79
LOCALIZACIÓN EN INTERIORES USANDO REDES INALÁMBRICAS DE SENSORES
[30]IEEE Standard 802.15.3,Wireless medium access control (MAC) and physical layer
(PHY) specifications for high rate wireless person area networks (WPANs),
September 2003.
[31]Wibree, http://www.wibree.com/
[32]Jennic, http://www.jennic.com
[33]Sensicast, http://www.sensicast.com/
[34]Millennial, http://www.millennial.net/
[35]Dustnetworks, http://www.dustnetworks.com/
[36]Sentilla, http://www.sentilla.com
[37]Xbow, http://www.xbow.com/
[38]http://www.itu.int/ITU-R/terrestrial/faq/index.html#g013.
5.150.
Apartados
5.130
y
[39]Datasheet for chipcon CC2420 2.4 GHz IEEE 802.15.4/ZigBee RF Transceiver
[40]David Gay, Philip Levis, David Culler, Eric Brewer , “nesC 1.1 Language Reference
Manual” May 2003.
[41]MPR-MIB User’s Manual, www.xbow.com
[42]MTS/MDA Sensor Board User’s Manual, www.xbow.com
[43]MoteWorks Getting Started Guide, www.xbow.com
[44]TinyOS, http://www.tinyos.net
[45]Java Manual de Referencia, Patrick Naughton y Herbert Schildt.
[46]Ubuntu, http://doc.ubuntu-es.org/Sobre_Ubuntu
[47]Quick Start Guide, www.xbow.com
JOSÉ CARLOS REYES GUERRERO
80