W-Station C2 - Wireless Qi Car Phone Charger + Magnetic Phone Holder, Input - Durch den leistungsstarken Qi wireless charging Chipsatz wird garantiert, dass Ihr Smartphone schnellstmöglich aufgeladen wird um stets erreichbar zu sein. Außerdem schützt die IconBit W-Station C2 Ihr Smartphone durch die anti-kratz & anti-rutsch Beschichtung vor unschönen Beschädigungen. Features Magnetischer Handyhalter + Drahtlose Ladestation, Kompatibel mit Qi-fähigen Smartphones, z.B.: Apple, Samsung, LG, Google Nexus, Motorola, Microsoft, Nokia, Huawei, Ladeleistung: 5W, Input: 5V/2A, Output: 5V/1A, Verpackungsinhalt: Wireless Charging Pad, Micro USB Kabel, Quick Start Guide, Größe: 185x100x25 mm,
This book describes the history and technology related to wireless networks. Wired networks have evolved into wireless networks, and various protocols of wireless networks have evolved to meet the needs of the generation. This book talks about the process and describes specially developed wireless communications applied to cars. The vehicle network, which is attracting attention as a next generation network, is an example of the development of mobile communication. You can use the internet from inside the car, and you can meet safe and comfortable driving environment through Internet. The process of transmitting data to the vehicle is very difficult and complex, and there are many factors to consider. We show the limitation of transmission capacity of existing IEEE 802.11p, introduce grouping algorithm of our algorithm by combining new ideas, and show through experiment that performance is improved through grouping algorithm.
Mit diesem kabellosen Fahrzeugladegerät können Sie Ihr Smartphone einfach anschließen und kabellos aufladen, wenn Sie im Auto unterwegs sind. Es verleiht Ihrem Auto ein sauberes und aufgeräumtes Aussehen, weil keine lose umherliegenden Ladekabel mehr gebraucht werden. Das kabellose Fahrzeugladegerät bietet Ihnen den Vorteil und den Komfort, nicht mehr jedes Mal, wenn Sie im Auto unterwegs sind, nach Ladekabeln suchen zu müssen und diese anzustecken. Platzieren Sie Ihr Smartphone einfach im Ständer. Der Ständer schließt automatisch und sorgt dafür, dass Ihr Smartphone sicher an seinem Platz bleibt. Der Einsatz der Qi-Funktechnologie bedeutet kabelloses und unkompliziertes Laden bei Geschwindigkeiten von bis zu 10 W. Im Lieferumfang enthalten ist eine spezielle Halterung für die Befestigung des Ladegeräts in den Lüftungsschlitzen Ihres Autos. Highlights: Fahrzeughalterung für Smartphones, 10 W Kabelloses Schnellaufladen (Qi), Automatische Schließ- und Haltefunktion, Einfach Befestigung an den Lüftungsschlitzen des Autos, Praktisches Kfz-Ladegerät mit sicherem Halt für Ihr Smartphone, Anschlüsse USB Typ C, Grundeigenschaften Höhe: 87 mm, Breite: 55 mm, Tiefe: 75 mm, Gewicht: 91 g, Produkttyp: Lader, Akku Induktives Laden: Qi, Quick Charging : 2.0, 3.0, Technische Beschreibung Input: USB-C (5 V/2 A - 9 V/1,67 A), Output 1x Qi Wireless (5 W - 7.5 W-10 W), Adapter benötigt für die optimale Nutzung AU015 Xtorm Car Charger mit USB Quick Charge 3.0 (oder ähnlicher QC 2.0 / 3.0 Adapter), Lieferumfang Xtorm Fast Wireless Car Charger*, USB - USB-C Ladekabel, Bedienungsanleitung, *Das abgebildete Smartphone ist nicht im Lieferumfang enthalten.
Vehicular ad hoc networks (VANET) represent a rapidly emerging research field. Vehicle to Vehicle communications are going to be an important evaluation in current wireless communication technology which are mainly based on the low mobility nodes. Vehicular Ad Hoc Network (VANET) is an instance of MANET that establishes wireless connections between Vehicle i.e. Cars, Buses and Trucks etc. Vehicular Ad Hoc Networks (VANET) characterized by nodes with relatively mobility and various disturbed environments. In VANET, a number of routing protocols and techniques are used for vehicular communication i.e. communications between car to car, communications between trucks to trucks. VANET having features such as distributed processing and organized networking, large number of nodes, distribution and speed of these nodes, constrained like highly variable network topology, communication conditions and mobility patterns, signal transmissions blocked by buildings, frequent partition due to the high mobility, and finally there are no significant power constraints. Hence, it needs specific vehicular capabilities and requirements for communications. Routing in vehicular Ad hoc Networks (VANET) has
In the age of the wireless, when everything is practically remote - ranging from remote controlled cars to automated unmanned spacecrafts - hardly any attention is paid to the various problems that exist simultaneously. This book is an attempt to expand on one such problem in the wireless domain and provide an elegant and effective solution for the same. More importantly the book attempts to provide basic and elementary understanding of basic concepts such as Wireless Networks, and Artificial Intelligence exhibited by a swarm of solutions. Finally this book will attempt to draw the readers attention to the vast array of problems that can be solved in a similar fashion. Hopefully, this book will be easy to understand and enlightening for everyone
Fundamental changes have been brought in data networking and telecommunications by the wireless communication revolution. Wireless networks: Mobile ad hoc networks (MANETs) and Vehicular ad hoc networks (VANETs) are characterized by the movement and self organization of the nodes. VANETs uses vehicles like cars, trucks etc as nodes. The data transfer take place using these vehicles. We will be applying an efficient and effective algorithm over large and dense VANETs of the type Vehicle-to-Vehicle (V2V). The VANET networks communicate using the standards for wireless communications. Thus,in order to communicate with the vehicles or nodes outside the communication range, it is required that other nodes(vehicles) are being used. Our proposed algorithm considers the transmission of the communication packets from some source to a particular destination in a way that will increase the connectivity and reduce the conflicts or collisions between various nodes in a networks.
Due to rapid advances in wireless technology, the Internet becomes more mobile. Not only smart phones become more affordable and ubiquitous, also car manufacturers are looking into leveraging Internet connectivity in order to provide advanced applications on car maintenance - such as monitoring and diagnosis, on road assistance - such as providing route navigation, weather maps and automated toll payments, as well as on passenger entertainment, including various types of Internet applications. In the last several years we have witnessed increasing number of cars connected to the Internet and all indicators suggest that this trend will continue. Recent researches show that it is possible to use 802.11n based network for drive-through Internet services at the speed of mobile clients up to 100 kilometers per hour. The problems we face in usual wired network become much worse in drive-through network as all it's clients are constantly switching from one access point to another. Specifically problems with packet congestions, bursts of traffic and packet buffering arise. This is why researching transient processes in wireless network became the primary interest of the author.
This book helps to explore the amazing things you can do with WSN and its application in gas leakage detection. The key features of this research and development are united together using the state - of - the - art technologies for LPG gas leakage detection, monitoring and controlling that provide alertness to the end user for preventing from health hazards. The system presented here uses ZigBee technologies for wireless communication and a LabVIEW tool and an interactive - facile GUI is also developed in the system. Thus the system presented herein is a soaring technology to replace the old wired version, which is portable and can be remotely monitored and automatically controlled. This system can be installed in kitchens, Liquefied Petroleum Gas (LPG) storage rooms, near the Natural Gas Vehicle (NGV) tank in mobile cars or any places things required. This book takes a comprehensive approach to cover wireless sensing, actuation and to cover the entire work through theoretical milieu of the technologies, model and the screenshots truly enlightening the working and exploitation of the system.
Cars, trucks, and other vehicles typically run on gasoline or diesel, fuels release harmful chemicals in the air. These emissions can create a multitude of problems, including health issues and environmental degradation due to pollution. To reduce these emissions and the problems that they create, it is really important to monitor and control them more frequently. This paper tries to address these issues proposing a real-time vehicle emission monitoring and location tracking framework. The proposed framework uses two main technologies Vehicle On-Board Diagnostic (OBD-II) to monitor vehicle emission information and Assisted Global Positioning System (A-GPS) to get location of the vehicle at real-time. The existing wireless network infrastructure is used in supporting the emission and location data collection on a central server and further processing and presentation of the information is done. To evaluate the operational effectiveness of the developed framework, simulation based experiment is conducted. Real-time vehicle flow on selected roads is conducted using the microscopic simulation SUMO.
High Quality Content by WIKIPEDIA articles! G-Book is a telematics subscription service currently provided by Toyota Motor Corporation in Japan for its Toyota- and Lexus-branded vehicles. G-Book allows users to link with cellphones, personal computers and G-Book equipped cars across Japan. It is based on the GAZOO infrastructure of Toyota's membership-based information service and membership system, and it provides interactive information services via vehicle installed touch-screen wireless communication terminals. Plans are in the works to possibly control home appliances and home security systems from inside the vehicle.
The vehicles have become a very significant means of transport in which results into a huge number of cars that are owned in various cities, in turn traffic congestion and pollution leads. Among all the parking has become the sparking factor of the mentioned problems. This project represents various techniques as far as the intelligent parking system is concerned which are already implemented. In looking after this parking issue, big number of authors contributed a lot in monitoring Parking systems and management of Intelligent parking system but with more convergence time and higher load, In this project we concentrated on most important stage of Image processing to detect the total number of parking lots, occupied and vacant and the slot numbers of the filled and vacant can get more efficient and less load with low complex techniques, In this project we have computed the distance from the car to the nearest parking lot using Geo coordinates from building information services through wireless.