Bibliografia
Capitolo 1
1. Michael Kraft “ Micromachined Inertial Sensors State of the Art and a Look in to the Future” Univesity of Southampton, Higfield, Southampton, SO17 1BJ
2.
http://www.mecc.polimi.it/~rovetta/robotica/aa2000_2001/Pareti/mioweb/teoriaaceelero metro.htm
3. Curtis D. Johnson “Accelerometer Principles”, Process Control Instrumentation Technology, Prentice Hall PTR
4.http://zone.ni.com/devzone/devzone.nsf/webcategories/78F388121FA5F43C8625684 A004E6CC1?opendocument&node=dz52555_us
5. Curtis D. Johnson “Types of Motion”, Process Control Instrumentation Technology, Prentice Hall PTR.
6. Curtis D. Johnson “Types of Accelerometers”, Process Control Instrumentation Technology, Prentice Hall PTR.
7. Fredrik Vikstén “ On the use of an accelerometer for identification of a flexible manipulator”, Master thesis project in Automatic Control at the Department of Electrical Engineering Linkoping University, Sweden.
8. Kevin J. Rust “INTRODUCTION TO ACCELEROMETERS AND CALIBRATION TECHNIQUES MTS”, Systems Corporation October 29, 1997
9. BASIC SCIENCE & TECHNOLOGY SECTION GUNNERY STAFF/CAREER COURSES “ACCELEROMETERS”, . ROYAL SCHOOL OF ARTILLERY
10. F. N. ALAVI*, M. KRAFT* and D. O. KING**, “Sensitivity Analysis of a High Performance Accelerometer”, *Department of Electronics & Computer Science, University of Southampton, High_elds, Southampton SO17 1BJ, UK **DERA
Bibliografia
Malvern, St Andrews Road, Malvern,Worcs., UK email: *ffna,mk1g@ecs.soton.ac.uk, **doking@dera.gov.uk.
11. Kraft, M. “Closed loop accelerometer employing oversampling conversion”, Coventry University, Ph.D. dissertation, 1997.
12. Boser, B. E. and Howe, R. T. “Surface micromachined accelerometers”, IEEE J. of Solid-State Circuits, Vol. 31, No. 3, pp. 336-375, 1996.
13. A. Capello, A. Cappozzo, P. E. di Prampero “ Bioingegneria della Postura e del Movimento” , 22 Gruppo Nazionale di Bioingegneria Pàtron Editore.
14. http://design.stanford.edu/Courses/me220/lectures/lect17/lect_17.html
15. http://www.spp.co.jp/sssj/sindoue.html
16. N. Yazdi, F. Ayazi, and K. Najafi, Micromachined Inertial Sensors, proceedings f the IEEE, vol. 86, August 1998.
17. J. Bernstein, S. Cho, A. T. King, A. Kourepenis, P. Maciel, and M. Weinberg, “A micromachined comb-drive tuning fork rate gyroscope,” in Proc. IEEE micro Elector Mechanical Systems Workshop (MEMS’93), Fort Lauderdale, FL, Feb. 1993, pp 143-148
18. M. Hashimoto, C. Cabuz, K. Minami, and M. Esashi, “silicon resonant angular rate sensor using electromagnetic excitation and capacitive detection,” J. Micromech. Microeng., pp. 219-225, 1995.
19. M. Lutz, W. Golderer, J. Berstenmeier, J. Marek, B. Maihofer, S. Mahler, H. Munzel, and U. Bischof, “A precision yaw rate sensor in silicon micromachining,” in Tech. Dig. 9th Int. Conf. Solid-State Sensors and Actuators (Transducers ’97), Chicago, IL, June 1997, pp. 847-850
20. R. Voss, K. Bauer, W. Ficker, T.Gleissner, W. Kupke, M. Rose, S. Sassen, J. Schalk, H. Seidel, and E. Stenzel, “Silicon angular rate sensor for automotive applications with piezoelectric drive and piezoresistive read-out,” in Tech. Dig. 9th Int. Conf. Solid-State Sensors and Actuators (Transducers ’97), Chicago, IL, June 1997, pp. 879-882.
Bibliografia
21. K. Maenaka, and T. Shiozawa, “A study of silicon angular rate sensors using anisotropic etching technology,” Sensors Actuators A, vol. 43, pp. 72-77, 1994.
22. M. W. Putty and K. Najafi, “A micromachined vibrating ring gyroscope,” in Tech. Dig. Solid-State Sensors and Actuator Workshop, Hilton Head Island, SC, June 1994, pp. 213-220
23. Stephen D. Senturia, “Microsystem Design”
24. Nadim Maluf, “An Introduction to Microelectomechanical Systems Engineering,” Artech House, Boston London, 2000.
25. C C Painter and A M Shkel “Structural and thermal modeling of a z-axis rate integrating gyroscope” INSTITUTE OF PHYSICS PUBLISHING JOURNAL OF MICROMECHANICS AND MICROENGINEERING J. Micromech. Microeng. 13 (2003) 229–237 PII: S0960-1317(03)54963-4 Microsystems Laboratory, Department of Mechanical and Aerospace Engineering, University of California, Irvine, CA 92697, USA
26 Damrongrit Piyabongkarn and Rajesh Rajamani “The Development of a MEMS Gyroscope for Absolute Angle Measurement” Department of Mechanical Engineering University of Minnesota Minneapolis, MN 55455.
27 . Mayagoitia R. E., Nene A. V., Veltink P. H. (2002a), “Accelrometer and rate gyroscope measurement of kinematics: an inexpensive alternative to optical motion analisis system”. J Biomech 35: 537-542.
28. Williamson R., Andrews B. J. (2001), “ Detecting absolute human knee angle and angular velocity using accelerometers and rate gyroscopes”. Med Biol Eng Comput 39: 294-302.
Bibliografia
29. Buizza A., Favelli I., Gandolfi R., Lombardi R. (1999), “Misura dei movimenti del capo durante attività della vita quotidiana”. Atti del convegno “Analisi del movimento in clinica: presente e futuro”, ISTISAN Congressi 62, p. 85.
30. P. Granella, S. Rinaldi, Sabbadini F. “Il Giroscopio ottico” , Tesi di Laurea
w3.uniroma1.it/digiamberardino/ didattica/SeM/Files/inerziale.pdf
31. Mayer T. G., Kondraske G., Beals S. B., Gatchel R. J. (1997), “Spinal range of motion. Accuracy and sources of error with inclinometric measurement”. Spine 22: 1976-1984.
32. Usumez S. , Orhan M. (2001), “ Inclinometer method for recording and transferring natural head position in cephalometrics”. Am J Orthod Dentofacial Orthop 120: 664-670.
Capitolo 2
1. SIG Bluetooth, “Specification of the Bluetooth System – Core” version 1.1, Febbraio 2001.
2. SIG Bluetooth, “Specification of the Bluetooth System – Profiles” version 1.1, Febbraio 2001.
3. http://www.bluetooth.com 4. http://www.palowireless.com
5. http://users.unimi.it/metis/tesidiego/tesionline/bluetooth_file.htm
6. http://telemat.det.unifi.it/
7. Carlo Santosuosso Progetto di interconnessione wireless con tecnologia Bluetooth per applicazione medicale, Tesi di Laurea
Bibliografia
Capitolo 3
1. www.analog.com
2. Harvey Weinberg Using the ADXL202 Duty Cycle Output AN-604 APPLICATION NOTE
3. Harvey Weinberg A Compact Algorithm Using the ADXL202 Duty Cycle Output AN-603APPLICATION NOTE
4. Charles Kitchin Using Accelerometers in Low g Applications AN-374 APPLICATION NOTE
5. Harvey Weinberg Using the ADXL202 in Pedometer and Personal Navigation Applications AN-602 APPLICATION NOTE
6. Rodger Richey Measure Tilt Using PIC16F84A & ADXL202 AN715 APPLICATION NOTE
7. PIC16F87X Data Sheet 28/40-Pin 8-Bit CMOS FLASH Microcontrollers Microchip Technology Inc.
8. www.microchip.com
9. PICmicro™ Mid-Range MCU Family Reference Manual Microchip Technology Inc.
10. Mark Palmer Using the PORTB Interrupt on Change as an External Interrupt AN566 APPLICATION NOTE
11. Domenico DELLA RATTA Microcontrollori in Rete per la Demotica Tesi di Laurea
12. Mats Andersson From idea to a Bluetooth based product ConnectBlue 13. www.connectblue.se
14. OEM Serial Port Adapter™ 2nd Generation Electrical & Mechanical Datasheet ConnectBlue
15. Serial Port Adapter™ Generation 2 - Use Cases and Features 1.0 ConnectBlue 16. Serial Port Adapter™ 2nd Generation FAQ ConnectBlue
Bibliografia
18. Specification of the Bluetooth System Master Table of Contents & Compliance Requirements Covered Core Package version: 1.2 Current Master TOC issued: 05 November 2003 Specification Volume 0
19. ICL232 Datasheet Intersil 20. http://www.maxim-ic.com