Abstract: Disclosed herein are systems and methods for processing personal data by application of policies. In one aspect, an exemplary method comprises, by the network infrastructure component, analyzing communication protocols between an IoT device and the network infrastructure component, identifying at least one field that contains personal data, for each identified field, analyzing the identified field using personal data processing policies uploaded to the network infrastructure component, and applying the personal data policies for enforcement.

Abstract: Disclosed herein are systems and methods for configuring IoT devices from the network infrastructure component based on a type of network, wherein the network contains at least one IoT device. In one aspect, an exemplary method comprises, by the network infrastructure component, collecting, data on one or more IoT devices, wherein each of the one or more IoT devices is connected to the network infrastructure component; for each IoT device, identifying a type of network; defining policies for configuring each of the one or more IoT devices based on the identified network; and for each of the one or more IoT devices, applying policies for monitoring and configuring the IoT device.

Abstract: Disclosed herein are systems and methods for controlling an IoT device from a node (hub) in a network infrastructure. In one aspect, an exemplary method comprises, analyzing the IoT device based on at least one of: characteristics of functionalitites of the IoT device, characteristics of information security of the IoT device, and characteristics of an impact on human life by the IoT device and/or by the security of the IoT device, adjusting the IoT device based on results of the analysis, determining whether the characteristics for which the analysis was performed changed during an operation of the device, and when the characteristics for which the analysis was performed changed, changing one or more settings associated with the IoT device based on the changes determined during the operation of the device.

Abstract: Disclosed herein are systems and methods for configuring IoT devices from the network infrastructure component based on a type of network, wherein the network contains at least one IoT device. In one aspect, an exemplary method comprises, by the network infrastructure component, collecting, data on one or more IoT devices, wherein each of the one or more IoT devices is connected to the network infrastructure component; for each IoT device, identifying a type of network; defining policies for configuring each of the one or more IoT devices based on the identified network; and for each of the one or more IoT devices, applying policies for monitoring and configuring the IoT device.

Abstract: Disclosed herein are systems and methods for processing personal data by application of policies. In one aspect, an exemplary method comprises, by the network infrastructure component, analyzing communication protocols between an IoT device and the network infrastructure component, identifying at least one field that contains personal data, for each identified field, analyzing the identified field using personal data processing policies uploaded to the network infrastructure component, and applying the personal data policies for enforcement.

Abstract: Disclosed are systems and methods for enabling transmission of data and commands between a mobile device and a vehicle. An exemplary method comprises connecting a security device to a vehicle and to a mobile device, the security device having a protected memory, verifying, by the security device, an authenticity of the mobile device, allowing, by the security device, transmission of data and commands between the mobile device and at least one actuating device of the vehicle when the mobile device is verified as being authentic, transmitting, by the security device, results of executions of commands from the at least one actuating device of the vehicle to the mobile device.

Abstract: Disclosed are systems and methods for detecting distributed denial-of-service (DDoS) attack. An exemplary method includes receiving one or more requests from a first user for a service executing on a server, and generating a first vector associated with the first user comprised of a plurality of characteristics indicative of the first user accessing the service; calculating a comparison between the first vector and a reference vector, wherein the reference vector comprises an averaged distribution of characteristics for a plurality of users accessing the service, and determining that the service is under a denial-of-service attack based on the comparison between the first vector and the reference vector.

Abstract: Disclosed are systems and methods for enabling transmission of data and commands between a mobile device and a vehicle. An exemplary method comprises connecting a security device to a vehicle and to a mobile device, the security device having a protected memory, verifying, by the security device, an authenticity of the mobile device, allowing, by the security device, transmission of data and commands between the mobile device and at least one actuating device of the vehicle when the mobile device is verified as being authentic, transmitting, by the security device, results of executions of commands from the at least one actuating device of the vehicle to the mobile device.

Abstract: Disclosed are systems and methods for securely controlling a vehicle using a mobile device. An exemplary method comprises authenticating, by a mobile device, a user attempting to perform commands controlling one or more vehicle systems of a coupled vehicle, retrieving profile information related to the user's preference associated with the coupled vehicle, establishing a connection between the mobile device and a security device of the coupled vehicle, authenticating the mobile device with the security device, forming, by the mobile device, commands to control the one or more vehicle systems based on command forming algorithms, the one or more vehicle systems comprising actuating devices of the vehicle and electronic systems of the vehicle, modifying the formed commands based on the profile information and safety information related to a location of the vehicle and transmitting the formed commands to the one or more vehicle systems via the security device to securely control the vehicle.

Abstract: Disclosed are systems and methods for detecting distributed denial-of-service (DDoS) attack. An exemplary method includes receiving one or more requests from a first user for a service executing on a server, and generating a first vector associated with the first user comprised of a plurality of characteristics indicative of the first user accessing the service; calculating a comparison between the first vector and a reference vector, wherein the reference vector comprises an averaged distribution of characteristics for a plurality of users accessing the service, and determining that the service is under a denial-of-service attack based on the comparison between the first vector and the reference vector.

Abstract: Disclosed are systems and methods for securely controlling a vehicle using a mobile device. An exemplary method comprises authenticating, by a mobile device, a user attempting to perform commands controlling one or more vehicle systems of a coupled vehicle, retrieving profile information related to the user's preference associated with the coupled vehicle, establishing a connection between the mobile device and a security device of the coupled vehicle, authenticating the mobile device with the security device, forming, by the mobile device, commands to control the one or more vehicle systems based on command forming algorithms, the one or more vehicle systems comprising actuating devices of the vehicle and electronic systems of the vehicle, modifying the formed commands based on the profile information and safety information related to a location of the vehicle and transmitting the formed commands to the one or more vehicle systems via the security device to securely control the vehicle.

Abstract: Disclosed are systems and methods for secure control of automotive systems using mobile devices. An exemplary method comprises: connecting a vehicle, as a peripheral device, to a mobile device, which acts as a master device, via a security device of the vehicle, wherein the security device provides secure transmission of data and commands between the vehicle and the mobile device; receiving, by the mobile device, via the security device, from one or more measurement devices of the vehicle, measurement data from one or more automotive systems of the vehicle; based on the received measurement data, forming by the mobile device control commands for actuating devices of the vehicle, wherein the control commands enable and/or regulate operation of the actuating devices of the vehicle; and transmitting, by the mobile device, via the security device, the control commands to the actuating devices of the vehicle.

Abstract: Disclosed are systems and methods for secure control of automotive systems using mobile devices. An exemplary method comprises: connecting a vehicle, as a peripheral device, to a mobile device, which acts as a master device, via a security device of the vehicle, wherein the security device provides secure transmission of data and commands between the vehicle and the mobile device; receiving, by the mobile device, via the security device, from one or more measurement devices of the vehicle, measurement data from one or more automotive systems of the vehicle; based on the received measurement data, forming by the mobile device control commands for actuating devices of the vehicle, wherein the control commands enable and/or regulate operation of the actuating devices of the vehicle; and transmitting, by the mobile device, via the security device, the control commands to the actuating devices of the vehicle.