A distributed weather system includes a storage, a plurality of wireless weather stations, a server, and an interface. Each of the plurality of wireless weather stations is associated with a user and has a battery, a location sensor generating location information, an anemometer generating apparent wind speed, a transmitter transmitting the location information with the apparent wind speed to a network at periodic intervals, and a receiver receiving control commands that include a length of the periodic intervals. The server receives the location information with the apparent wind speed and stores them in the storage. The interface is accessible by a mobile computer, and receives the control commands from a user and sends them to the receiver of the wireless weather station associated with the user. The interface displays a true wind speed for each of the plurality of wireless weather stations, which is calculated using the apparent wind speed, the location information, and historical location information.

An approach is provided for interpolating weather forecast reports for a forecast location having limited weather station access. The approach involves segmenting a plurality of weather forecast reports according to a plurality of segmentation categories, the plurality of segmentation categories representing respective one or more forecast parameters. The approach also involves determining respective values of the plurality of segmentation categories from each of the plurality of weather forecasts. The approach further involves selecting a representative value from the respective values for each of the one or more segmentation categories. The approach further involves combining the representative value for said each of the plurality of segmentation categories to generate an interpolated weather forecast report.

An approach is provided for interpolating weather forecast reports for a forecast location having limited weather station access. The approach involves segmenting a plurality of weather forecast reports according to a plurality of segmentation categories, the plurality of segmentation categories representing respective one or more forecast parameters. The approach also involves determining respective values of the plurality of segmentation categories from each of the plurality of weather forecasts. The approach further involves selecting a representative value from the respective values for each of the one or more segmentation categories. The approach further involves combining the representative value for said each of the plurality of segmentation categories to generate an interpolated weather forecast report.

A method for providing an aviation weather chart and an apparatus using the same. An aviation weather chart apparatus according to an aspect of the present invention may compromise: a communication unit which is connected to a weather server and an flight path server so as to acquire aviation weather information from the weather server, acquire flight path information from the flight path server, and acquire flight identification information from a network; and a control unit which acquires the flight path information corresponding to the flight identification information, acquires the aviation weather information corresponding to the flight path information, and acquires an aviation weather chart such that the flight path information and the weather information are displayed at one time on the basis of a flight information region through which a flight corresponding to the flight information passes and the weather information corresponding to the flight information region.

A method for providing an aviation weather chart and an apparatus using the same. An aviation weather chart apparatus according to an aspect of the present invention may compromise: a communication unit which is connected to a weather server and an flight path server so as to acquire aviation weather information from the weather server, acquire flight path information from the flight path server, and acquire flight identification information from a network; and a control unit which acquires the flight path information corresponding to the flight identification information, acquires the aviation weather information corresponding to the flight path information, and acquires an aviation weather chart such that the flight path information and the weather information are displayed at one time on the basis of a flight information region through which a flight corresponding to the flight information passes and the weather information corresponding to the flight information region.

Systems and methods for converting live weather data to a weather index for offsetting weather risk. Weather data source systems generate one or more weather data streams that include weather forecast model and observations data. A data distribution system receives a weather index request, identifies at least one instrument and at least one location associated with the request. Weather risk indication data is extracted among the weather data streams associated with the identified location based on predefined parameters associated with the identified instrument. The extracted data is converted into a set of weather index values corresponding to the location, based on a predetermined algorithm associated with the identified instrument. A weather index presentation package is generated that includes the set of weather index values for distribution to at least one user device. The weather index presentation package being distributed is updated concurrent with changes to weather risk indication data.

Systems and methods for converting live weather data to a weather index for offsetting weather risk. Weather data source systems generate one or more weather data streams that include weather forecast model and observations data. A data distribution system receives a weather index request, identifies at least one instrument and at least one location associated with the request. Weather risk indication data is extracted among the weather data streams associated with the identified location based on predefined parameters associated with the identified instrument. The extracted data is converted into a set of weather index values corresponding to the location, based on a predetermined algorithm associated with the identified instrument. A weather index presentation package is generated that includes the set of weather index values for distribution to at least one user device. The weather index presentation package being distributed is updated concurrent with changes to weather risk indication data.

Systems, methods and computer-readable media are provided for determining an effective altitude in relation to a moving sports object. In some examples, a method includes determining respective values for an air temperature, an air pressure, and a relative humidity of an environment of interest. Based on the determined respective values of the air temperature, the air pressure, and the relative humidity, an air density for the environment of interest is calculated to derive a first air density value. A second air density value is derived for a reference environment. An absolute value of a difference between the first and second air densities is compared against a preset comparison value and, based on the comparison being equal to or smaller than the preset comparison value, an output including an indicator of the effective altitude is generated.

Systems, methods and computer-readable media are provided for determining an effective altitude in relation to a moving sports object. In some examples, a method includes determining respective values for an air temperature, an air pressure, and a relative humidity of an environment of interest. Based on the determined respective values of the air temperature, the air pressure, and the relative humidity, an air density for the environment of interest is calculated to derive a first air density value. A second air density value is derived for a reference environment. An absolute value of a difference between the first and second air densities is compared against a preset comparison value and, based on the comparison being equal to or smaller than the preset comparison value, an output including an indicator of the effective altitude is generated.

A distributed weather system includes a storage, a plurality of wireless weather stations, a server, and an interface. Each of the plurality of wireless weather stations is associated with a user and has a battery, a location sensor generating location information, an anemometer generating apparent wind speed, a transmitter transmitting the location information with the apparent wind speed to a network at periodic intervals, and a receiver receiving control commands that include a length of the periodic intervals. The server receives the location information with the apparent wind speed and stores them in the storage. The interface is accessible by a mobile computer, and receives the control commands from a user and sends them to the receiver of the wireless weather station associated with the user. The interface displays a true wind speed for each of the plurality of wireless weather stations, which is calculated using the apparent wind speed, the location information, and historical location information.