"orientation panel"

#12784558

22 September 2025

Two women wearing black headscarves stand in front of an entrance sign marked ''Eingang'' (Entrance) with an arrow symbol by Lake Starnberg in Starnberg, Bavaria, Germany, on September 21, 2025.

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#12558918

16 July 2025

People use the public sea bath facility at Sorenga Sjobad along the Havnepromenaden waterfront in Oslo, Norway, on May 9, 2024. Informational signage marks the promenade route and provides orientation for visitors.

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#12558921

16 July 2025

People use the public sea bath facility at Sorenga Sjobad along the Havnepromenaden waterfront in Oslo, Norway, on May 9, 2024. Informational signage marks the promenade route and provides orientation for visitors.

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#12446920

6 June 2025

People check the digital departure displays at the green glass terminal for bus platforms 11-20 on Platz der Deutschen Einheit in Darmstadt, Hesse, Germany, on October 17, 2021. The forecourt at the central station includes signage, bike parking, and multimodal transport access.

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#12445908

5 June 2025

A man stands on an elevated glass walkway in front of the Breuninger department store building in Duesseldorf, North Rhine-Westphalia, Germany, on May 23, 2022. The modern retail and office complex is part of the Koe-Bogen II urban development, with the ''Hans im Glueck'' restaurant visible on the lower level.

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#12437144

2 June 2025

An orientation board displays the layout of the Vystaviste Exhibition Grounds in Prague, Czech Republic, on May 12, 2025. The map provides an overview of pavilions, halls, green spaces, and visitor facilities at the exhibition complex in the Holesovice district.

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#12414424

27 May 2025

Passengers wait on the subway platform at Neuperlach Zentrum station, with transit maps and information boards provided by MVG for orientation, in Munich, Upper Bavaria, Bavaria, Germany, on May 24, 2025. The underground station features illuminated signage, tiled floors, and stainless-steel columns, serving a busy residential and commercial district.

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#12371779

16 May 2025

A public transport information point shows directions for metro, tram, and bus services at the central railway station in Prague, Czech Republic, on May 12, 2025. The signage provides multilingual orientation for travelers using the city's integrated transit network.

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#12371780

16 May 2025

A public transport information point shows directions for metro, tram, and bus services at the central railway station in Prague, Czech Republic, on May 12, 2025. The signage provides multilingual orientation for travelers using the city's integrated transit network.

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#10582538

2 October 2023

Aerial photo taken on Oct 1, 2023 shows the ''fish-light complementary'' photovoltaic project that can automatically revolve around the sun near Baima Lake in Huai 'an city, Jiangsu province, China. The field has two large areas for the ''Mars Tracker'' type of automated photovoltaic project. Photovoltaic panels in the electric field can automatically calculate the daily trajectory of the sun. The controller adjusts the direction of rotation of the support according to the running track data, and drives the photovoltaic panel to generate vertical sunlight from east to west every day, and the photovoltaic panel can revolve around the sun like a sunflower. The relevant data show that compared with the fixed installation of photovoltaic system, by tracking the solar orientation, the photovoltaic tracking system can increase the power generation capacity of the photovoltaic system by 10% to 35%, and the power generation cost can be reduced by 2% to 5%.

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#10582540

2 October 2023

Aerial photo taken on Oct 1, 2023 shows the ''fish-light complementary'' photovoltaic project that can automatically revolve around the sun near Baima Lake in Huai 'an city, Jiangsu province, China. The field has two large areas for the ''Mars Tracker'' type of automated photovoltaic project. Photovoltaic panels in the electric field can automatically calculate the daily trajectory of the sun. The controller adjusts the direction of rotation of the support according to the running track data, and drives the photovoltaic panel to generate vertical sunlight from east to west every day, and the photovoltaic panel can revolve around the sun like a sunflower. The relevant data show that compared with the fixed installation of photovoltaic system, by tracking the solar orientation, the photovoltaic tracking system can increase the power generation capacity of the photovoltaic system by 10% to 35%, and the power generation cost can be reduced by 2% to 5%.

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#10582542

2 October 2023

Aerial photo taken on Oct 1, 2023 shows the ''fish-light complementary'' photovoltaic project that can automatically revolve around the sun near Baima Lake in Huai 'an city, Jiangsu province, China. The field has two large areas for the ''Mars Tracker'' type of automated photovoltaic project. Photovoltaic panels in the electric field can automatically calculate the daily trajectory of the sun. The controller adjusts the direction of rotation of the support according to the running track data, and drives the photovoltaic panel to generate vertical sunlight from east to west every day, and the photovoltaic panel can revolve around the sun like a sunflower. The relevant data show that compared with the fixed installation of photovoltaic system, by tracking the solar orientation, the photovoltaic tracking system can increase the power generation capacity of the photovoltaic system by 10% to 35%, and the power generation cost can be reduced by 2% to 5%.

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#10582544

2 October 2023

Aerial photo taken on Oct 1, 2023 shows the ''fish-light complementary'' photovoltaic project that can automatically revolve around the sun near Baima Lake in Huai 'an city, Jiangsu province, China. The field has two large areas for the ''Mars Tracker'' type of automated photovoltaic project. Photovoltaic panels in the electric field can automatically calculate the daily trajectory of the sun. The controller adjusts the direction of rotation of the support according to the running track data, and drives the photovoltaic panel to generate vertical sunlight from east to west every day, and the photovoltaic panel can revolve around the sun like a sunflower. The relevant data show that compared with the fixed installation of photovoltaic system, by tracking the solar orientation, the photovoltaic tracking system can increase the power generation capacity of the photovoltaic system by 10% to 35%, and the power generation cost can be reduced by 2% to 5%.

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#10582546

2 October 2023

Aerial photo taken on Oct 1, 2023 shows the ''fish-light complementary'' photovoltaic project that can automatically revolve around the sun near Baima Lake in Huai 'an city, Jiangsu province, China. The field has two large areas for the ''Mars Tracker'' type of automated photovoltaic project. Photovoltaic panels in the electric field can automatically calculate the daily trajectory of the sun. The controller adjusts the direction of rotation of the support according to the running track data, and drives the photovoltaic panel to generate vertical sunlight from east to west every day, and the photovoltaic panel can revolve around the sun like a sunflower. The relevant data show that compared with the fixed installation of photovoltaic system, by tracking the solar orientation, the photovoltaic tracking system can increase the power generation capacity of the photovoltaic system by 10% to 35%, and the power generation cost can be reduced by 2% to 5%.

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#10582548

2 October 2023

Aerial photo taken on Oct 1, 2023 shows the ''fish-light complementary'' photovoltaic project that can automatically revolve around the sun near Baima Lake in Huai 'an city, Jiangsu province, China. The field has two large areas for the ''Mars Tracker'' type of automated photovoltaic project. Photovoltaic panels in the electric field can automatically calculate the daily trajectory of the sun. The controller adjusts the direction of rotation of the support according to the running track data, and drives the photovoltaic panel to generate vertical sunlight from east to west every day, and the photovoltaic panel can revolve around the sun like a sunflower. The relevant data show that compared with the fixed installation of photovoltaic system, by tracking the solar orientation, the photovoltaic tracking system can increase the power generation capacity of the photovoltaic system by 10% to 35%, and the power generation cost can be reduced by 2% to 5%.

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#10582550

2 October 2023

Aerial photo taken on Oct 1, 2023 shows the ''fish-light complementary'' photovoltaic project that can automatically revolve around the sun near Baima Lake in Huai 'an city, Jiangsu province, China. The field has two large areas for the ''Mars Tracker'' type of automated photovoltaic project. Photovoltaic panels in the electric field can automatically calculate the daily trajectory of the sun. The controller adjusts the direction of rotation of the support according to the running track data, and drives the photovoltaic panel to generate vertical sunlight from east to west every day, and the photovoltaic panel can revolve around the sun like a sunflower. The relevant data show that compared with the fixed installation of photovoltaic system, by tracking the solar orientation, the photovoltaic tracking system can increase the power generation capacity of the photovoltaic system by 10% to 35%, and the power generation cost can be reduced by 2% to 5%.

Restricted to Editorial Use Only.
Commercial use is not permitted without prior authorization.
Please contact us for more information.