Bioprocess device assembly and inoculation method

The invention claimed is: 1 . A bioprocess device assembly, comprising: at least a first bioreactor and a second bioreactor, wherein the first bioreactor is a rocking motion bioreactor, a transfer system for transferring a certain volume of a medium contained in the first bioreactor into the second bioreactor, a biomass sensor associated with the first bioreactor for measuring at least one parameter relating to a quantity and/or a quality of biomass contained in the first bioreactor, wherein the biomass sensor is a single-frequency capacitance sensor, a scattered light sensor, and/or a light intensity sensor, and a control unit configured for receiving measurement data from the biomass sensor and controlling the transfer system, the control unit being parametrized such that, based on an evaluation of the measurement data received from the biomass sensor, the control unit: (a) decides whether a biomass status is sufficient for inoculation, (b) determines a necessary inoculation volume, and (c) controls the transfer system to transfer the determined inoculation volume from the first bioreactor into the second bioreactor. 2 . The bioprocess device assembly according to claim 1 , wherein the biomass sensor and the control unit are configured for monitoring the at least one parameter and controlling the transfer system in real-time. 3 . The bioprocess device assembly according to claim 1 , wherein the transfer system includes at least one of the following controllable conveyor devices: a pump; a pneumatic drive; a gravimetric feeder. 4 . An inoculation method performed within a bioprocess, the method making use of a bioprocess device assembly according to claim 1 and comprising the following steps: the biomass sensor constantly or repeatedly measuring at least one parameter relating to the quantity and/or quality of the biomass contained in the first bioreactor; the biomass sensor sending measurement data to the control unit; and the control unit evaluating the measurement data received from the biomass sensor and, based on an evaluation of the measurement data: (a) deciding whether the biomass status is sufficient for inoculation, (b) determining the necessary inoculation volume, and (c) controling the transfer system to transfer the determined inoculation volume from the first bioreactor into the second bioreactor. 5 . The method according to claim 4 , wherein the steps of evaluating the measurement data received from the biomass sensor and controlling the transfer system to transfer the determined inoculation volume from the first bioreactor into the second bioreactor are performed in real-time. 6 . The method according to claim 4 , wherein the necessary inoculation volume is calculated based on the evaluated measurement data of the biomass sensor. 7 . The method according to claim 4 , wherein the transfer of the inoculation volume is performed based on one of the following driving principles: hydraulic pressure; pneumatic pressure; gravity. 8 . The method according to claim 4 , wherein the first bioreactor is operated in a perfusion mode. 9 . The method according to claim 4 , wherein initial conditions in the second bioreactor and/or process control and process parameters of the second bioreactor are adapted or adjusted depending on at least one of the following: an amount or concentration of a metabolite in the transferred inoculation volume; one or more physicochemical characteristics of the transferred inoculation volume. 10 . The method according to claim 4 , wherein the method is performed multiple times with a cascade of pre-culture bioreactors. 11 . The method according to claim 9 , wherein the one or more physicochemical characteristics of the transferred inoculation volume include at least one of pH, oxygen saturation, or temperature. 12 . The method according to claim 4 , wherein the biomass status is a viable cell density. 13 . The bioprocess device assembly according to claim 1 , wherein the biomass status is a viable cell density. 14 . The bioprocess device assembly according to claim 1 , further comprising a second biomass sensor associated with the second bioreactor, wherein the second biomass sensor is configured to examine the transferred medium. 15 . The bioprocess device assembly according to claim 1 , further comprising a rocker. 16 . The bioprocess device assembly according to claim 1 , wherein the biomass sensor is a single-frequency capacitance sensor. 17 . The bioprocess device assembly according to claim 1 , wherein the biomass sensor is a scattered light sensor. 18 . The bioprocess device assembly according to claim 1 , wherein the biomass sensor is a light intensity sensor. 19 . A bioprocess device assembly, comprising: at least a first bioreactor and a second bioreactor, wherein the first bioreactor is a rocking motion bioreactor, a transfer system for transferring a certain volume of a medium contained in the first bioreactor into the second bioreactor, a first biomass sensor associated with the first bioreactor for measuring at least one parameter relating to a quantity and/or a quality of biomass contained in the first bioreactor, a second biomass sensor associated with the second bioreactor, wherein the second biomass sensor is configured to examine the transferred medium, and wherein the second biomass sensor is a single-frequency capacitance sensor, a scattered light sensor, and/or a light intensity sensor, and a control unit configured for receiving measurement data from the first biomass sensor and controlling the transfer system, the control unit being parametrized such that, based on an evaluation of the measurement data received from the first biomass sensor, the control unit: (a) decides whether a biomass status is sufficient for inoculation, (b) determines a necessary inoculation volume, and (c) controls the transfer system to transfer the determined inoculation volume from the first bioreactor into the second bioreactor.