data/internal/noctilio/2009_03_22

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Noctilio leporinus - 2009_03_22

  • 2009_13_04_noctilio leporinus22_03_2009.xls (26.5 kB)
  • 2010_11_15_noctilio leporinus22_03_2009.xls (28.5 kB)
  • 2010_11_18_noctilio leporinus22_03_2009.xls (30.5 kB)
  • 2010_12_03_noctilio leporinus22_03_2009.xls (34.5 kB)
  • read me_about uulm labels.txt (408 B)
  • spreadsheet_noctilio_telemike_22_30_2009.xls (14.5 kB)

03

  • uulm
    • 005_watercapture
      • 005.o01 (399 MB)
      • 005.o02 (399 MB)
      • 005.o03 (336 MB)
      • 005.opt (399 MB)
      • 005.seq (532 B)
      • Kt2009-03-22 21_11_38 005.wav (3.1 MB)
      • Bitmap
        • 005.seq (469 B)
        • 00500000.bmp — 00501090.bmp (1091 files)

05

  • uulm
    • 006_watercapture
      • 006.o01 (399 MB)
      • 006.o02 (330 MB)
      • 006.opt (399 MB)
      • 006.seq (531 B)
      • Kt2009-03-22 21_06_31 003.WAV (3.13 MB)
      • Bitmap
        • 006.seq (468 B)
        • 00600000.bmp — 00600802.bmp (803 files)

06

  • uulm
    • 007_watercapture
      • 007.o01 (399 MB)
      • 007.o02 (240 MB)
      • 007.opt (399 MB)
      • 007.seq (531 B)
      • Kt2009-03-22 21_13_20 007.wav (3.04 MB)
      • Bitmap
        • 007.seq (468 B)
        • 00700000.bmp — 00700738.bmp (739 files)

07

  • uulm
    • 008_watercapture
      • 008.o01 (399 MB)
      • 008.o02 (173 MB)
      • 008.opt (399 MB)
      • 008.seq (531 B)
      • Kt2009-03-22 21_23_49 008.wav (3.12 MB)
      • Bitmap
        • 008.seq (468 B)
        • 00800000.bmp — 00800690.bmp (691 files)

08

  • uulm
    • 009_watercapture
      • 009.o01 (399 MB)
      • 009.o02 (307 MB)
      • 009.opt (399 MB)
      • 009.seq (532 B)
      • Kt2009-03-22 21_32_01 009.wav (3.31 MB)
      • Bitmap
        • 009.seq (469 B)
        • 00900000.bmp — 00900785.bmp (786 files)

09

  • uulm
    • 010_watercapture_Lost_turn
      • 010.o01 (399 MB)
      • 010.o02 (399 MB)
      • 010.o03 (399 MB)
      • 010.o04 (295 MB)
      • 010.opt (399 MB)
      • 010.seq (532 B)
      • Kt2009-03-22 21_36_50 010.wav (3.11 MB)
      • Bitmap
        • 010.seq (469 B)
        • 01000000.bmp — 01001345.bmp (1346 files)

10

  • uulm
    • 011_watercapture_lost_turn
      • 011.o01 (399 MB)
      • 011.o02 (399 MB)
      • 011.o03 (399 MB)
      • 011.o04 (338 MB)
      • 011.opt (399 MB)
      • 011.seq (533 B)
      • Kt2009-03-22 21_45_49 011.wav (4.06 MB)
      • Bitmap
        • 011.seq (470 B)
        • 01100000.bmp — 01101375.bmp (1376 files)

13

  • uulm
    • 014_watercapture_turn
      • 014.o01 (399 MB)
      • 014.o02 (399 MB)
      • 014.o03 (399 MB)
      • 014.o04 (84.4 MB)
      • 014.opt (399 MB)
      • 014.seq (533 B)
      • Kt2009-03-22 21_55_06 014.wav (4.07 MB)
      • Bitmap
        • 014.seq (470 B)
        • 01400000.bmp — 01401195.bmp (1196 files)

15

  • uulm
    • 016_watercapture
      • 016.o01 (399 MB)
      • 016.o02 (388 MB)
      • 016.opt (399 MB)
      • 016.seq (532 B)
      • Kt2009-03-22 22_00_36 016.wav (4.13 MB)
      • Bitmap
        • 016.seq (469 B)
        • 01600000.bmp — 01600843.bmp (844 files)

16

  • uulm
    • 018_watercapture
      • 018.o01 (399 MB)
      • 018.o02 (399 MB)
      • 018.o03 (210 MB)
      • 018.opt (399 MB)
      • 018.seq (533 B)
      • Kt2009-03-22 22_06_05 018.wav (4.09 MB)
      • Bitmap
        • 018.seq (470 B)
        • 01800000.bmp — 01801000.bmp (1001 files)

17

  • uulm
    • 019_watercapture
      • 019.o01 (399 MB)
      • 019.o02 (243 MB)
      • 019.opt (399 MB)
      • 019.seq (532 B)
      • Kt2009-03-22 22_10_02 019.wav (4.12 MB)
      • Bitmap
        • 019.seq (469 B)
        • 01900000.bmp — 01900740.bmp (741 files)

28

  • uulm
    • 023_aerial capture
      • 023.o01 (399 MB)
      • 023.o02 (363 MB)
      • 023.opt (399 MB)
      • 023.seq (532 B)
      • Kt2009-03-22 22_49_33 023.wav (4.17 MB)
      • Bitmap
        • 023.seq (469 B)
        • 02300000.bmp — 02300825.bmp (826 files)

29

  • uulm
    • 024_aerial capture
      • 024.o01 (399 MB)
      • 024.o02 (314 MB)
      • 024.opt (399 MB)
      • 024.seq (532 B)
      • Kt2009-03-22 22_54_13 024.wav (4.26 MB)
      • Bitmap
        • 024.seq (469 B)
        • 02400000.bmp — 02400790.bmp (791 files)

30

  • uulm
    • 025_aerial capture
      • 025.o01 (399 MB)
      • 025.o02 (399 MB)
      • 025.o03 (231 MB)
      • 025.opt (399 MB)
      • 025.seq (533 B)
      • Kt2009-03-22 22_58_14 025.wav (4.17 MB)
      • Bitmap
        • 025.seq (470 B)
        • 02500000.bmp — 02501015.bmp (1016 files)

31

  • uulm
    • 026_aerial capture
      • 026.o01 (399 MB)
      • 026.o02 (399 MB)
      • 026.o03 (350 MB)
      • 026.opt (399 MB)
      • 026.seq (533 B)
      • Kt2009-03-22 23_04_21 026.wav (4.05 MB)
      • Bitmap
        • 026.seq (470 B)
        • 02600000.bmp — 02601100.bmp (1101 files)

32

  • uulm
    • 027_aerial capture
      • 027.o01 (399 MB)
      • 027.o02 (271 MB)
      • 027.opt (399 MB)
      • 027.seq (532 B)
      • Kt2009-03-22 23_08_33 027.wav (4.03 MB)
      • Bitmap
        • 027.seq (469 B)
        • 02700000.bmp — 02700760.bmp (761 files)

33

  • uulm
    • 028_aerial capture
      • 028.o01 (399 MB)
      • 028.o02 (399 MB)
      • 028.o03 (399 MB)
      • 028.o04 (7.03 MB)
      • 028.opt (399 MB)
      • 028.seq (533 B)
      • Kt2009-03-22 23_12_25 028.wav (4.15 MB)
      • Bitmap
        • 028.seq (470 B)
        • 02800000.bmp — 02801140.bmp (1141 files)

34

  • uulm
    • 029_aerial capture
      • 029.o01 (399 MB)
      • 029.o02 (399 MB)
      • 029.o03 (301 MB)
      • 029.opt (399 MB)
      • 029.seq (533 B)
      • Kt2009-03-22 23_18_10 029.wav (4.16 MB)
      • Bitmap
        • 029.seq (470 B)
        • 02900000.bmp — 02901065.bmp (1066 files)

uulm


Created by: admin last modification: Thursday 02 of February, 2012 [22:48:39 UTC] by admin

 

Useful links


A presentation of the main points of the project.

Related Projects

The CIRCE robot bat head

2002-2005: CIRCE (Chiroptera Inspired Robotic CEphaloid; IST-2001-35144) which reproduced, at a functional level, the echolocation system of bats by constructing a bionic bat head that was used to systematically investigate how the world is not just perceived but actively explored by bats. This bionic bat head is of similar size to a real bat head to reproduce the relevant physics and consist of an emission/reception system capable of generating/processing bat vocalisations in real-time, a multi-degree of freedom mechanical system to allow realistic pinnae movement.

2005-2010: CILIA (Customized Intelligent Life-inspired Arrays; IST-2005-016039), about sensory systems based on arrays of hairs. The project aims to identify the common principles underlying the widespread use in nature of arrays of mechanical sensory cells for the extraction of meaning under adverse conditions and to make those principles available for design of engineered systems.

Contact :  Last update :  Thursday 02 of February, 2012 © Copyright ChiRoPing Consortium 2009
 Graphic design :  Maibritt Popp Stuckert Jørgensen Structural design :  Bridget Hallam