Some Relevant Flying Insect Engineering Data

Please send suggestions, comments, and corrections to ronf@eecs

Dragon Fly Data

M.L. May, ``Dragonfly Flight: Power Requirements at High Speed and Acceleration'', Jnl. of Experimental Biology, vol. 158, pp. 325-342, 1991.

Dragon Fly Data, S. sanguineum

• mass 0.121 gm, 49% muscle, peak muscle power
• resting 0.6 mW, hovering: 2 mW, high speed (2m/s): 10 mW
• efficiency
• elastic storage 2.5 or at 40 Hz
• wing length 28 mm
• stroke amplitude 150 degrees

J.M. Wakeling and C.P. Ellington, ``Dragon Fly Flight: III. Lift and Power Requirements'' Jnl. of Experimental Biology, vol 200, pp. 583-600, 1997.

Fruit Fly Data, Drosophila

• mass 1.05 mgm, 30% muscle, peak muscle power
• hovering: 19 , cruising: : 24 ,
• efficiency 6 to 10%
• wing velocity 1.4 - 2.2 , flight force peak
• wing stroke , beat 190-230 Hz, length 2.5 mm
• muscle stress , 1% strain

M.H. Dickinson and J.R.B. Lighton, ``Muscle Efficiency and Elastic Storage in the Flight Motor of Drosophila'', Science, vol. 268, pp. 87-90, 7 April 1995.

Speed and Range

Hoverfly

• burst speed 40 km/hr (11 m/s)

monarch butterfly

• cruise speed 18 km/hr (5m/s)
• mass = 0.6 gram, fuel = 25% by weight fat
• range 800 km open loop, 4000 km using terrain and thermal features

J. Brackenbury, Insects in Flight London: Blandford.

Vertebrate Muscle Data

• max. static stress , sustainable
• strain > 40%, strain rate 5/s
• peak power at max. strain rate, and max. stress
• peak power 0.1 (max. stress)(max. strain rate)
• stiffness varies over 10 fold range dependent on length and activation

I.W. Hunter and S. Lafontaine, ``A Comparison of Muscle with Artificial Actuators'', Solid-State Sensor and Actuator Workshop, pp. 178-185, Hilton Head, SC, June 22-25, 1992.

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