Solar Energy Forecast


    Product Description

    ​With more solar energy coming onto the grid every day, how can you successfully integrate and take advantage of this intermittent resource? Vaisala's solar forecast offers a competitive edge in effectively managing risk at your project and in your energy portfolio.

    Primary Uses

    • Reduce imbalance penalties
    • Maximize solar production
    • Improve scheduling and integration
    • Detect reduced production days
    • Manage your thermal and renewable energy supply portfolio


    Vaisala's forecast system is based on the most advanced numerical weather prediction modeling techniques. It statistically integrates on-site data to calibrate forecast predictions to a project site's distinct geography and climate. When long-term ground observations are unavailable we use 15+ years of hourly site data from our global solar dataset to provide a reliable and accurate solar production forecast. Our methodology accounts for localized characteristics such as clouds influenced by complex terrain, coastal effects, and monsoon.

    Developed and Tested In The Real World

    Vaisala's forecast was created through a partnership with one of the Southwest's largest utilities and solar energy producers. The resulting system was piloted, tested, and improved based on performance in real world applications at actual utility-scale solar projects.


    In addition to industry leading accuracy, Vaisala's solar forecast also offers ease of use. Forecasts are delivered through a customizable dashboard, displaying site-specific conditions with easily interpreted graphics. Users can also download the day-ahead irradiance and power forecasts as data files and access historical forecast information.​

    Technical Overview

    ​Solar Forecast Tools

    • MOS-corrected day-ahead GHI or power* forecast
    • Downloadable forecast data files

    Rewind Tool

    • See how forecasts are evolving over time by comparing the current forecast with previous predictions.

    Optional Features

    • Power forecasts* can be delivered in place of GHI when historical irradiance, power production data, or a power conversion formula is provided.
    • An API is also available for faster integration of downloadable forecast data into your internal analysis tools and programming software.

    Product Highlights

    • Customizable dashboard interface.
    • Guaranteed 24/7 availability.
    • Frequency. The forecast is updated every 6 hours, provides predictions at an hourly granularity, and projects 60 hours into the future.
    • Security. Easily set your own permissions system for access to forecast information with unique usernames and passwords. In addition, Vaisala provides a secure password protected web host server for all data transfers.

    Delivery Method

    Forecasting information is made available via a client-specific dashboard interface accompanied by data files in an easily integrated CSV file format. Data files can also be accessed via API.


    Vaisala developed our solar forecast using the most physically robust technique to provide accurate irradiance and power forecasts specific to a solar project's unique environment. The numerical weather prediction model Vaisala employs is an open source model c​​​ontinually updated and improved upon by the international atmospheric science and research community.


    In the forecast model initialization process, we statistically integrate historical observations provided by the client or hourly, high-resolution (3km), satellite derived solar data, which are well calibrated to ground measurements. This statistical process is called model output statistics (or MOS) and significantly reduces forecast error and bias. In addition, Vaisala validates the solar forecast using our global solar dataset, which is based on over a decade of actual, high-resolution visible satellite imagery observations.

    Customer Requirements

    To provide solar forecasting, Vaisala must be supplied with all the meta data for your project such as: time zone, project location, and panel information. For power forecasting the client must provide historical irradiance, power production data, or a power conversion formula. Historical data is not required for GHI forecasting.