Youen Toupin
3 years ago
1 changed files with 21 additions and 0 deletions
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Pt = Ph + Pm = Pp + Pa + k*v + f*v² |
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Pp = max(0, -m*g*vv) |
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Pa = 1/2*m*(vdt² - v0²)/dt = m*a*(v0 + 1/2*a*dt) |
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Pt: total power, in W |
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Ph: mechanical human power, in W |
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Pm: mechanical motor power, in W ; this is not the electrical power, as the motor has an efficiency lower than 1 |
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Pp: potential power (in W, due to potential energy change) |
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Pa: acceleration power (in W, due to kinetic energy change) |
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k: kinetic friction coefficient (dry friction) |
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f: fluid friction coefficient (air friction) |
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v: velocity, in m/s |
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vv: vertical velocity (in m/s, positive => going uphill) |
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g: gravity constant (-9.8 m.s⁻²) |
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m: mass in kg |
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vehicle constants: |
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- mass (m), including driver, passengers and other payloads ; easy to measure directly |
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- kinetic friction coefficient (k) ; difficult to measure, needs to be estimated from monitoring data |
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- fluid friction coefficient (f) ; difficult to measure, needs to be estimated from monitoring data |
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