Hydraulic system for a working machine

The invention claimed is: 1. A hydraulic system for a working machine, said hydraulic system comprising: a feeding pump: a plurality of variable displacement hydraulic machines being connected in parallel to said feeding pump; a first one of said variable displacement hydraulic machines being adapted to drive a ground engagement element of said working machine, and a second one of said variable displacement hydraulic machines being adapted to drive a vibrator for vibrating the ground engagement element of said working machine; a speed sensor adapted to determine a value indicative of a rotational speed of the first one of the variable displacement hydraulic machines; a displacement sensor adapted to determine a value of an actual displacement of the first one of said variable displacement hydraulic machines; and a control unit configured to operate the first one of the variable displacement hydraulic machines in response to outputs of the speed sensor and the displacement sensor to drive the ground engagement element in order to obtain a desired driving condition. 2. The hydraulic system according to claim 1 , wherein said plurality of variable displacement hydraulic machines is connected to said feeding pump in parallel through a circuit conduit assembly; and wherein said circuit conduit assembly comprises a high pressure line and a low pressure line, wherein said feeding pump comprises a high pressure side and a low pressure side, wherein said high pressure line fluidly connects each one of said plurality of variable displacement hydraulic machines to said high pressure side, wherein said low pressure line fluidly connects each one of said plurality of variable displacement hydraulic machines to said low pressure side, wherein said hydraulic system comprises a first pressure sensor and a second pressure sensor, wherein said first pressure sensor is adapted to issue a high pressure signal indicative of fluid pressure in said high pressure line, wherein said second pressure sensor is adapted to issue a low pressure signal indicative of the fluid pressure in said low pressure line. 3. The hydraulic system according to claim 2 , wherein said circuit conduit assembly comprises an accumulator. 4. The hydraulic system according to claim 1 , wherein the first one of said variable displacement hydraulic machines is adapted to operate both as a hydraulic pump and as a hydraulic motor. 5. The hydraulic system according to claim 1 , wherein said hydraulic system comprises a set of displacement control devices, each displacement control device being adapted to control the displacement of one of said variable displacement hydraulic machines. 6. The hydraulic system according to claim 5 , wherein the control unit is adapted to issue a signal to each displacement control device in said set of displacement control devices. 7. The hydraulic system according to claim 1 , wherein the ground engagement element is a compactor drum. 8. The hydraulic system according to claim 1 , wherein said feeding pump has a variable displacement. 9. A powertrain comprising a power source and a hydraulic system according to claim 1 , said power source being operably connected to said feeding pump of said hydraulic system. 10. A working machine comprising a powertrain according to claim 9 and/or a hydraulic system according to claim 1 . 11. The working machine according to claim 10 comprising a set of ground engagement elements, wherein said set of ground engagement elements comprises at least one of a wheel and a compactor drum. 12. A method for operating a working machine comprising a powertrain which in turn comprises a power source and a hydraulic system, said hydraulic system comprising: a feeding pump operably connected to said power source; a plurality of variable displacement hydraulic machines being connected in parallel to said feeding pump; at least a first one of said variable displacement hydraulic machines being adapted to drive a ground engagement element of said working machine, and at least a second one of said variable displacement hydraulic machines being adapted to drive a vibrator for vibrating a ground engagement element of said working machine, wherein said hydraulic system comprises a speed sensor adapted to determine a value indicative of a rotational speed of the first one of said variable displacement hydraulic machines and a displacement sensor adapted to determine a value of an actual displacement of the first one of said variable displacement hydraulic machines, said method comprising: determining a desired driving condition of said working machine, receiving inputs from said speed sensor and said displacement sensor, and operating at least said power source and each one of said variable displacement hydraulic machines being adapted to drive a ground engagement element in response to said inputs from said speed sensor and said displacement sensor in order to obtain said desired driving condition. 13. The method according to claim 12 , wherein said plurality of variable displacement hydraulic machines is connected to said feeding pump in parallel through a circuit conduit assembly, and wherein said circuit conduit assembly comprises an accumulator, said method further comprising: upon determination that said desired driving condition of said working machine is braking said working machine, controlling at least one of said variable displacement hydraulic machines that is adapted to drive a ground engagement element of said working machine so as to operate as a hydraulic pump for feeding fluid to said accumulator. 14. A control unit for operating a working machine comprising a powertrain which in turn comprises a power source and a hydraulic system, said hydraulic system comprising: a feeding pump operably connected to said power source; a plurality of variable displacement hydraulic machines being connected in parallel to said feeding pump; at least a first one of said variable displacement hydraulic machines being adapted to drive a ground engagement element of said working machine, and at least a second one of said variable displacement hydraulic machines being adapted to drive a vibrator for vibrating a ground engagement element of said working machine, wherein said hydraulic system comprises a speed sensor adapted to determine a value indicative of a rotational speed of the first one of said variable displacement hydraulic machines and a displacement sensor adapted to determine a value of an actual displacement of the first one of said variable displacement hydraulic machines, said control unit being adapted to: receive information indicative of a desired driving condition of said working machine, receiving inputs from said speed, sensor and said displacement sensor, and issue a signal to at least said power source and to each one of said variable displacement hydraulic machines being adapted to drive a ground engagement element in response to said inputs from said speed sensor and said displacement sensor so that they are operated in order to obtain said desired driving condition.