The subject of this contract is the delivery and implementation of the SIS-RZ System supporting decision-making processes related to the operation of a tank retention system in the area of Bydgoszcz, operating on the basis of data provided by devices and measurement systems, and then processed by artificial intelligence based on a neural network (SSN) or other analogous artificial intelligence technique. The SIS-RZ system is designed to: 1. allow optimal use of the available infrastructure in terms of minimizing overloads of the rainwater sewage system and maximizing the collection and storage of rainwater for in-situ use, 2. support decision-making processes, planning and operation of the tank retention system, as well as enable efficient acquisition, verification and collection of the required rainfall and control and measurement data, as well as their processing in real time using artificial intelligence methods and techniques. The SIS-RZ system will be an autonomous expert system that will automatically control the amount of water in retention reservoirs depending on weather forecasts, forecasted rainfall in rainwater drainage catchments and data provided by metering systems. The SIS-RZ system will be fully scalable, enabling the Ordering Party to future expansion (including updating the artificial intelligence model used) with new infrastructural and control and measurement elements. The SIS-RZ system will use numerical meteorological forecasts to predict the magnitude and dynamics of rainwater or meltwater runoff from separate catchments of the drainage system. On this basis, the SIS-RZ System will implement superior remote control of retention reservoirs before and during the forecast occurrence of rainfall in order to maximize the transit capacity of storm water drainage systems and minimize overflows. The contractor will use data on filling levels in key cross-sections of storm water drainage systems and retention reservoirs, as well as data on the amount and intensity of precipitation from meteorological stations to minimize flooding and maximize the volume of rainwater stored for use in reservoirs after the passage of precipitation.

The subject of this contract is the delivery and implementation of the SIS-RZ System supporting decision-making processes related to the operation of a tank retention system in the area of Bydgoszcz, operating on the basis of data provided by devices and measurement systems, and then processed by artificial intelligence based on a neural network (SSN) or other analogous artificial intelligence technique. The SIS-RZ system is designed to: 1. allow optimal use of the available infrastructure in terms of minimizing overloads of the rainwater sewage system and maximizing the collection and storage of rainwater for in-situ use, 2. support decision-making processes, planning and operation of the tank retention system, as well as enable efficient acquisition, verification and collection of the required rainfall and control and measurement data, as well as their processing in real time using artificial intelligence methods and techniques. The SIS-RZ system will be an autonomous expert system that will automatically control the amount of water in retention reservoirs depending on weather forecasts, forecasted rainfall in rainwater drainage catchments and data provided by metering systems. The SIS-RZ system will be fully scalable, enabling the Ordering Party to future expansion (including updating the artificial intelligence model used) with new infrastructural and control and measurement elements. The SIS-RZ system will use numerical meteorological forecasts to predict the magnitude and dynamics of rainwater or meltwater runoff from separate catchments of the drainage system. On this basis, the SIS-RZ System will implement superior remote control of retention reservoirs before and during the forecast occurrence of rainfall in order to maximize the transit capacity of storm water drainage systems and minimize overflows. The contractor will use data on filling levels in key cross-sections of storm water drainage systems and retention reservoirs, as well as data on the amount and intensity of precipitation from meteorological stations to minimize flooding and maximize the volume of rainwater stored for use in reservoirs after the passage of precipitation. A detailed description of the subject of the contract is presented in the Description of the Subject of the Order (hereinafter OPZ), constituting Annexes No. 8 to the SWZ.