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Solar cell visual positioning system

Solar Cell Powering with Integrated Global Positioning System

A new concept of a solar cell powering with integrated Global Positioning System (GPS) for microrobots is proposed. The main idea is to use a projector to transfer energy and to provide global positioning information to the robots that are equipped with multi-segment solar cells on their top. First tests with a 3000 ANSI lumens beamer projecting a white image

Eyes on the Solar System

Explore the 3D world of the Solar System. Learn about past and future missions.

Using silicon photovoltaic cells and machine learning and neural

We propose and experimentally demonstrate visible-light positioning (VLP) systems using silicon photovoltaic cells (Si-PVCs) and machine learning and neural network

Visible Light Positioning and Lighting Based on Identity

We propose and experimentally demonstrate an indoor positioning system which combines identity positioning and the radio frequency carrier allocation technique in order to reduce the signal...

Single-Source VLCP System Based on Solar Cell Array Receiver

In this paper, we propose an indoor VLCP system utilizing one LED transmitter and an array of multiple SC receivers, alongside a right-angled tetrahedron trilateration VLP (RATT-VLP) algorithm. The system achieves VLC through the modulation and demodulation of

An Indoor Positioning System Based on Visible Light

This paper studies an Indoor Positioning System (IPS) based on Visible Light Communication (VLC) using the solar cell as an optical receiver unlike conventional receivers.

Visible Light Positioning and Lighting Based on Identity Positioning

We propose and experimentally demonstrate an indoor positioning system which combines identity positioning and the radio frequency carrier allocation technique in order to reduce the signal...

Angle-of-Arrival (AOA) Visible Light Positioning (VLP) System

We put forward and demonstrate a angle-of-arrival (AOA) based visible-light-positioning (VLP) system using quadrant-solar-cell (QSC) and third-order ridge regression machine learning (RRML) to improve the positioning accuracy.

(PDF) Angle-of-Arrival (AOA) Visible Light Positioning (VLP) System

We put forward and demonstrate a angle-of-arrival (AOA) based visible-light-positioning (VLP) system using quadrant-solar-cell (QSC) and third-order ridge regression machine learning (RRML)...

Visible Light Positioning and Lighting Based on Identity Positioning

We propose and experimentally demonstrate an indoor positioning system which combines identity positioning and the radio frequency carrier allocation technique in order to reduce the signal interference from nearby light-emitting diodes (LEDs) and improve the accuracy of

ADVANCED QUALITY INSPECTION

service, systems from ISRA VISION / GP Solar optimize photovoltaic production sites around the world. Geometry & Contour • Geometric irregularities • Edge distortions • Applicable for wafer and cell manufacturing Surface Inspection • Low contrast visual defects • Stains, fingerprints, chips • Applicable for wafer and cell manufacturing

Visible Light Positioning and Lighting Based on Identity

We propose and experimentally demonstrate an indoor positioning system which combines identity positioning and the radio frequency carrier allocation technique in

An Indoor Positioning System Based on Visible Light

This paper studies an Indoor Positioning System (IPS) based on Visible Light Communication (VLC) using the solar cell as an optical receiver unlike conventional receivers. Due to the advantage of the solar cell such as: low cost, flexibility, and high light sensitivity, the proposed system is capable of simultaneous communication and

Indoor Localization using Solar Cells

We propose PVDeepLoc, a device-free light-based indoor localization system that passively leverages photovoltaic currents generated by the solar cells powering various digital objects distributed in the environment. The basic principle is that the location of the human interferes with the lighting received by the solar cells, thus

Using silicon photovoltaic cells and machine learning and

We propose and experimentally demonstrate visible-light positioning (VLP) systems using silicon photovoltaic cells (Si-PVCs) and machine learning and neural network algorithms. Both angle-of-arrival (AOA)-based and received-signal-strength (RSS)-based VLP systems are evaluated and compared.

(PDF) Angle-of-Arrival (AOA) Visible Light Positioning

We put forward and demonstrate a angle-of-arrival (AOA) based visible-light-positioning (VLP) system using quadrant-solar-cell (QSC) and

Solar Tracking System: Working, Types, Pros, and Cons

They ensure that the panel consistently faces the sun, optimizing sunlight exposure. In this blog, let''s explore the working, types, applications, and costs of solar tracking systems. Solar Tracking System. These trackers are commonly used for positioning solar panels to maximize sunlight exposure. This adjustment minimizes light reflection

Single-Source VLCP System Based on Solar Cell Array

Self-Sufficient Sensor Node Embedding 2D Visible Light Positioning

In this paper, we propose a low power VLP system equipped with LoRaWAN connectivity and employing a small-sized PV module both for 2D indoor localization and energy provisioning. The designed prototype is conceived in a low power perspective in such a way to be compliant with the energy harvesting aspect.

[PDF] Angle-of-Arrival (AOA) Visible Light Positioning (VLP) System

A angle-of-arrival (AOA) based visible-light-positioning (VLP) system using quadrant-solar-cell (QSC) and third-order ridge regression machine learning (RRML) to improve the positioning accuracy is put forward. We put forward and demonstrate a angle-of-arrival (AOA) based visible-light-positioning (VLP) system using quadrant-solar-cell (QSC) and third-order

(PDF) An Indoor Positioning System Based on Visible

This paper studies an Indoor Positioning System (IPS) based on Visible Light Communication (VLC) using the solar cell as an optical receiver unlike conventional receivers.

Solar cell powering with integrated global positioning system for

1. Computer Engineering and Intelligent Systems ISSN 2222-1719 (Paper) ISSN 2222-2863 (Online) Vol 3, No.9, 2012 Solar Cell Powering with Integrated Global Positioning System for SWARM Robot System Dr S.N.Singh1* Hirak Mazumdar2 Rakesh Kumar3 1.

Self-Sufficient Sensor Node Embedding 2D Visible

Automated positioning dual-axis solar tracking system with

The control system of the solar tracker was governed by Micro Controller Unit (MCU) with auxiliary devices which includes encoder and Global Positioning System (GPS). The sun path trajectory algorithm utilizing the astronomical equation and GPS information was also embedded in the system. The power generation performance of the dual-axis solar tracking

Robustness enhancement of indoor visible light positioning system

VLP systems work for accurately acquiring the location of the UE. In practice, the VLP system divides the positioning region into multiple interconnected positioning units that are composed of LEDs because the radiation range of a single LED is usually very limited, as shown in Fig. 1 (a). In general, a rough positioning is to determine which unit the UE is in, and

(PDF) Solar Cell Powering with Integrated Global Positioning System for

A new concept of a Solar Cell powering with integrated Global Positioning System (GPS) for SWARM (Small World Autonomous Robots for Micro-manipulation) is proposed. The main idea is to use a

(PDF) An Indoor Positioning System Based on Visible

This paper studies an indoor positioning system (IPS) based on visible light communication (VLC) using the solar cell as an optical receiver unlike conventional receivers.

Indoor Localization using Solar Cells

We propose PVDeepLoc, a device-free light-based indoor localization system that passively leverages photovoltaic currents generated by the solar cells powering various

Solar cell visual positioning system [PDF]

6 FAQs about [Solar cell visual positioning system]

What is a solar cell based indoor positioning system?

Chaabna, A.; Babouri, A.; Zhang, X. An indoor positioning system based on visible light communication using a solar cell as receiver. In Proceedings of the International Conference in Artificial Intelligence in Renewable Energetic Systems, Tipaza, Algeria, 22–24 October 2017. [ Google Scholar]

What is visible light positioning (VLP)?

For this reason, among the aforementioned IP technologies, visible light positioning (VLP) has arisen as valid solution for the deployment of low power localizable targets [ 1, 2, 7 ], simultaneously providing energy harvesting features thanks to the exploitation of the same light signals used for localization.

Can a low power sensor node provide 2D visible light positioning?

This paper presents the realization and testing of a low power sensor node equipped with long range wide area network (LoRaWAN) connectivity and providing 2D Visible Light Positioning (VLP) features. Three modulated LED (light emitting diodes) sources, the same as the ones commonly employed in indoor environments, are used.

How does a Solar Node work?

Moreover, the node exploits a solar cell, both as optical receiver and energy harvester, provisioning energy from the artificial lights used for positioning, thus realizing an innovative solution for self-sufficient indoor localization.

Can solar cells be used as a photodetector?

Some applications involving solar cells as photodetector concern visible light communication (VLC) [ 23, 24, 25] or more in general optical wireless communication (OWC) [ 26] rather than VLP; therefore, with respect to the proposed system, no localization task is performed.

What is indoor positioning (IP)?

Author to whom correspondence should be addressed. Nowadays, indoor positioning (IP) is a relevant aspect in several scenarios within the Internet of Things (IoT) framework, e.g., Industry 4.0, Smart City and Smart Factory, in order to track, amongst others, the position of vehicles, people or goods.

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