Slip ratio estimation device and slip ratio estimation method

The invention claimed is: 1. A slip ratio estimation device that estimates a slip ratio of each of a plurality of driving wheels possessed by a moving vehicle, comprising: a rotational speed acquisition part that acquires a rotational speed of each of said plurality of driving wheels; a normal reaction force information acquisition part that acquires an information of normal reaction force upon each of said plurality of driving wheels; a torque control part configured to determine a torque instruction value for each of said plurality of driving wheels, and to control a torque amount for each of said plurality of driving wheels on the basis of said torque instruction values that have been determined; a friction coefficient information calculation part configured to calculate friction coefficient information related to each of said plurality of driving wheels, on the basis of a torque instruction value for each of said plurality of driving wheels, results of acquisition by said rotational speed acquisition part, and results of acquisition by said normal reaction force information acquisition part; and a slip ratio calculation part configured to calculate the slip ratio of each of said plurality of driving wheels, on the basis of the rotational speeds acquired by said rotational speed acquisition part and the results of calculation by said friction coefficient information calculation part, wherein, said slip ratio calculation part calculates a slip ratio of a first object wheel and a slip ratio of a second object wheel based on i) a first rotational speed of the first object wheel, ii) a second rotational speed of the second object wheel, iii) a difference between the first rotational speed and the second rotational speed, and iv) a ratio of a friction coefficient of the first object wheel and a friction coefficient of the second object wheel, the first object wheel being included in at least one of first driving wheels among said plurality of driving wheels, the second object wheel included in at least one of second driving wheels among said plurality of driving wheels, said second driving wheels being different from said first driving wheels, and said slip ratio calculation part calculates the slip ratio of each of said plurality of driving wheels in at least one of manners of the following (a) and (b): (a) when said torque control part determines i) to give the same torque instruction values to both said first driving wheels and said second driving wheels, and ii) that the normal reaction force upon said first object wheel and the normal reaction force upon said second object wheel are different, said slip ratio calculation part performs a slip ratio calculating processing for each of said plurality of driving wheels, and (b) when said torque control part determines to give mutually different torque instruction values for said first driving wheels and for said of second driving wheels, said slip ratio calculation part performs the slip ratio calculating processing for each of said plurality of driving wheels without considering that the normal reaction force upon said first object wheel and the normal reaction force upon said second object wheel are different or not different. 2. The slip ratio estimation device according to claim 1 , wherein said plurality of driving wheels are a left side front driving wheel, a right side front driving wheel, a left side rear driving wheel, and a right side rear driving wheel, when taking the forward direction as reference, said first driving wheels are said left side front driving wheel and said right side front driving wheel, and said second driving wheels are said left side rear driving wheel and said right side rear driving wheel. 3. The slip ratio estimation device according to claim 1 , wherein said plurality of driving wheels are a left side front driving wheel, a right side front driving wheel, a left side rear driving wheel, and a right side rear driving wheel, when taking the forward direction as reference, said first driving wheels are said left side front driving wheel and said right side rear driving wheel; and said second driving wheels are said left side rear driving wheel and said right side front driving wheel. 4. The slip ratio estimation device according to claim 1 , further comprising: a slip ratio correction part that corrects the slip ratios calculated by said slip ratio calculation part according to a correction equation that is determined according to the friction coefficient information calculated by said friction coefficient information calculation part and said calculated slip ratios. 5. The slip ratio estimation device according to claim 1 , wherein, (a) when said torque control part determines i) to give the same torque instruction values to both said first driving wheels and said second driving wheels, and ii) that the normal reaction force upon said first object wheel and the normal reaction force upon said second object wheel are different, said slip ratio calculation part performs the slip ratio calculating processing for each of said plurality of driving wheels, and (b) when said torque control part determines to give mutually different torque instruction values for said first driving wheels and for said of second driving wheels, said slip ratio calculation part performs the slip ratio calculating processing for each of said plurality of driving wheels without considering that the normal reaction force upon said first object wheel and the normal reaction force upon said second object wheel are different or not different. 6. The slip ratio estimation device according to claim 1 , wherein, using the following equations: λ 1 =(ω 2 −ω 1 )/(μ 2 /μ 1 )·ω 2 −ω 1 ) λ 2 =(ω 2 −ω 1 )/(ω 2 −(μ 1 /μ 2 )·ω 1 ) where λ 1 is the slip ratio for said first driving wheels, λ 2 is the slip ratio for said second driving wheels, μ 1 is the friction coefficient corresponding to the slip ratio for said first driving wheels, μ 2 is the friction coefficient corresponding to the slip ratio for said second driving wheels, ω 1 is the rotational speed of the said first driving wheels, and ω 2 is the rotational speed of the said second driving wheels, (a) when said torque control part determines i) to give the same torque instruction values to both said first driving wheels and said second driving wheels, and ii) that the normal reaction force upon said first object wheel and the normal reaction force upon said second object wheel are different, said slip ratio calculation part performs the slip ratio calculating processing for each of said plurality of driving wheels, and (b) when said torque control part determines to give mutually different torque instruction values for said first driving wheels and for said of second driving wheels, said slip ratio calculation part performs the slip ratio calculating processing for each of said plurality of driving wheels without considering that the normal reaction force upon said first object wheel and the normal reaction force upon said second object wheel are different or not different. 7. The slip ratio estimation device according to claim 1 , wherein, using the following equations: λ 1 =(ω 2 −ω 1 )/((μ 2 /μ 1 )·ω 1 −ω 2 ) λ 2 =(ω 2 −ω 1 )/(ω 1 −(μ 1 /μ 2 )·ω 2 ) where λ 1 is the slip ratio for said first driving wheels, λ 2 is the slip ratio for said second driving wheels, μ 1 is the friction coefficient corresponding to the slip ratio for said first driving wheels, μ 2 is the friction coefficient corresponding to the slip ratio for said second driving wheels, ω 1 is the rotational speed of the said first driving wheels, and ω 2 is the rotational speed of the said second driving wheels, (a) when said torque control part determines i) to give