Researchers of the St. Petersburg Federal Research Center (SPC RAS) have developed a domestic digital system for managing agro-industrial facilities - vertical frameworks to grow greens on. The development functions on the basis of domestic software; it could be individually configured for efficient and automated production of various types of agricultural products and controlled remotely via the Internet from a personal computer or smartphone.
Researchers of the St. Petersburg Federal Research Center of the Russian Academy of Sciences (SPC RAS) have developed a new method for modeling a radio signal that will increase the efficiency of sounding the earth's surface. The development can be used to improve the accuracy of radar and satellite systems for exploring territories operating in the radio wave range.
SPC RAS joined the V Intermuseum-University Festival "Into the museum – today, into the science – tomorrow!" traditionally hold in the time span of the school spring holidays, and this year from March 26 - April 3.
Research team of the St. Petersburg Federal Research Center of the Russian Academy of Sciences (SPC RAS) has developed specialized software that combines into a unified information system the long-term data provided by the traffic police, cartographic and meteorological services. The above program allows for exercising analytical studies of traffic accidents to identify dangerous sections of urban roads and substantiate the reasons for the increased concentration of the accidents.
Research team of Russian scientists composed by the specialists from the St. Petersburg Federal Research Center of the Russian Academy of Sciences (SPC RAS) compiled a detailed map of the Magellanic mountains profile - the section of the Pacific Ocean, whose seabed contains enormous deposits of cobalt. The received results will allow for evaluating the amount and localization of this metal being an important raw material for industrial application in metallurgy, petro-chemistry and production of electronics materials. In addition, the developed maps will be used at developing the effective methods for cobalt mining.
Scientists of the St. Petersburg Federal Research Center of the Russian Academy of Sciences (SPC RAS) have developed software to allow developers for selecting components as aimed at building smart devices and robots to ensure the security of strategic facilities. The received results are published in the scientific journal Sensors.
Researchers of the St. Petersburg Federal Research Center of the Russian Academy of Sciences (SPC RAS) have developed the "Cargotime" software, that allows to automatically track any movement of a cargo transported by sea carriers on container ships over the world. The above development is expected to make the work of logistics companies more efficient and convenient. Information about the cargo status can be monitored on the application's site by container numbers or received automatically via a telegram-bot.
At Leningrad Research Computer Center (LRCC) of the USSR Academy of Sciences had been developed one of the country's first global information and computer network, the AcademNetwork “North-West”.
Researchers of the St. Petersburg Federal Research Center of the Russian Academy of Sciences (SPC RAS) as a part of an international research group have developed a system for early detection of concentrations of pollutants dangerous for living organisms in the waters of the Gulf of Finland. The method is based on the analysis of the functional state of mollusks living in water using special biomarkers. The development will allow for timely predicting environmental risks in advance identifying the most vulnerable areas of the Russian part of the Gulf of Finland.
Researchers of the St. Petersburg Federal Research Center of the Russian Academy of Sciences (SPC RAS) jointly with scientists from Germany, Serbia and Turkey have created a robotic complex (a ground based service platform with a drone parked on it) that will help farmers to effectively perform various types of agricultural works (sowing and harvesting, cargo delivery, crops spraying and watering). The development will automate the implementation of various tasks in the agricultural sector of the economy, minimize humans’ efforts and increase their safety.