Weather Instrument Operational Features

Wind data is displayed in the Navigational Panel.

No.

Element

1

Parameter name

2

Sensor name

3

Wind direction (depends on the selected wind type)

4

Wind speed (depends on the selected wind type)

5

Wind type selected in the Wind tab of the multi-function window

6

Wind speed units, set in **Measurement Units** (m/s, knots, km/h)

In the Wind tab, the selected wind direction relative to the vessel is displayed graphically.

No.

Element

Description

1

Wind type selection

2

Wind speed

Wind speed of the selected type

3

Wind direction

Wind direction of the selected type

4

Wind force

Wind force in Beaufort scale points

5

Vessel symbol

Orientation always vertical

6

Compass meridian

From gyrocompass — true, from magnetic compass — magnetic

7

North direction

Compass north direction (true or magnetic, depending on the heading source)

8

Wind vector

Wind vector of the selected type

Wind Types

ECDIS displays three wind types:

  • True Wind — wind relative to the water surface. Determined by the anemometer taking into account the vessel’s heading and speed, or received directly from the sensor if it is installed on a stationary platform.

  • Relative/Apparent Wind — wind perceived by an observer on a moving vessel. It is the vector sum of the true wind and the opposing flow from the vessel’s motion.

  • Calculated Wind — wind calculated by ECDIS based on anemometer data, heading, and vessel speed. Used when the sensor does not provide direct true wind values.

Wind Direction Recalculation

Depending on the type of received sentence, ECDIS recalculates wind directions for the navigator’s convenience:

  1. $--MWD — True (broadcast), Relative, Calculated.

  2. $--MWV:

    • Relative: Relative (broadcast) and Calculated

    • Calculated: Calculated (broadcast)

Wind Direction Calculation Formulas

Wind direction calculation is performed using the following formulas:

\(V_{tw} = \sqrt{{STW}^{2} + V_{aw}^{2} - 2STWV_{aw}\cos\left( K_{aw} \right)}\)

\(K_{tw} = HDG + K_{aw} \pm KK\)

\(KK = arccos\left\lbrack \frac{\left( V_{aw} - STW\cos(K_{aw}) \right)}{V_{tw}} \right\rbrack\)

Where:

  • \(STW\) — vessel speed, kn.

  • \(HDG\) — vessel heading

  • \(V_{aw}\) — apparent wind speed, kn.

  • \(K_{aw}\) — apparent wind direction, °. If the sensor provides values relative to the vessel’s centerline, conversion to the circular geographic system is required:

    \(K_{geo} = HDG + K_{rel}\) (at 0° ≤ \(K_{rel}\) ≤ 180°)

    or

    \(K_{geo} = HDG - K_{rel}\) (at 180° < \(K_{rel}\) < 360°)

  • \(V_{tw}\) — true wind speed, kn.

  • \(K_{tw}\) — true wind direction

  • \(KT\) — calculated wind direction

  • \(VT\) — calculated wind speed

  • \(KK\) — angle between true and apparent wind

Important

Wind parameter calculation is performed when heading and vessel speed data from sensors are available. If heading and speed data are lost, wind value recalculation will be suspended.

Examples of wind data display with various sensor state combinations:

Alarm and warning zone

Navigational Panel

Wind tab

No speed data


Alarm and warning zone

Navigational Panel

Wind tab

No heading data