"trajectory tracking"

#13457486

16 Mar 2026

A large-scale OLED presentation screen displays a real-time smart city traffic analysis visualization within the NVIDIA pavilion during the Mobile World Congress in Barcelona, Spain, on March 5, 2026. The demonstration showcases the capabilities of the NVIDIA Metropolis platform running on NVIDIA HGX H200 servers at the network edge, integrated with Cisco Meraki MT smart video-surveillance cameras. The AI-driven system utilizes a high-definition 24-megapixel bullet camera, powered by the Sony IMX485 sensor and a localized Jetson AGX Orin 64GB module, to process multiple video streams at a latency below 50ms via a private 5G-Advanced network provided by the GSMA Open Gateway initiative. The screen provides a complex visual overlay, dynamically displaying individual traffic light status, countdown timers, real-time object detection and classification for all vehicles and pedestrians, and historical trajectories of completed maneuvers over the last 60 seconds. The display highlights the system's ability to optimize traffic flow, enhance pedestrian safety using predictive AI agents, and provide actionable analytics for urban planners.

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#12949561

4 Nov 2025

Comet C/2025 A6 (Lemmon) is seen from municipality of Calascio, Italy, on October 29th 2025.

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#11729793

1 Nov 2024

Starlink satellites passage is seen on the sky in southern Poland on November 1, 2024.

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#11680598

19 Oct 2024

Comet Tsuchinshan-ATLAS is visible to the naked eye in Sharjah, UAE, on October 18, 2024

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#11662827

13 Oct 2024

Comet C/2023 A3 (Tsuchinshan-ATLAS) is seen after sunset in Athens, Greece, on October 13, 2024.

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#11625982

1 Oct 2024

C/2023 A3 (Tsuchinshan-ATLAS) comet and waning moon are seen before sunrise above Rocca Calascio castle and Santa Maria della Pieta church in Calascio, Italy, on October 1st, 2024. ''The Century Comet'' C/2023 A3 (Tsuchinshan-ATLAS) is a newly discovered comet, first observed in January 2023 by the Tsuchinshan Observatory and the ATLAS project.

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#10582538

2 Oct 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 Oct 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 Oct 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 Oct 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 Oct 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 Oct 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 Oct 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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#10582552

2 Oct 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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#10582554

2 Oct 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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#10582556

2 Oct 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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