“I declare that this report entitle this report multy-sensory control system for remotelycontrol surface vessel is the result of my own research except as cited in the references. The report has not been accepted for any degree and is not concurrently submitted in candidature of any other degree.”
Controller system considers one of the important techniques in the recent years because of the great facilities that these systems give to control, command, manage direct or regulate the behavior of other device(s), machine(s) or system(s). The proposed system is a distributed microcontroller networked system which has many features that are; a remotelycontrol that is achieved through the using of the server and the serial Ethernet which in turn connected to the microcontroller, scalability that is achieved through the rubout middle ware built in the server which handle the increasing number of sites without make any change on it, reusability feature that is achieved through the software used, since there is no need to make any change in this software if it is used in different applications such as monitoring and control the temperature, voltage, lighting and valves of different systems, also this software can control different systems in the same time, economical feature that is achieved by using one server to acquire and control many sites in the same time instead of using one server in each site to control the dedicated site placed in it. Therefore, this system is considering a new prototype that can be used in different, multiple and large- scale applications.
Abstract—The technical education sector of the UAE adopts hands-on dom- inated curricula with the aim of meeting the industrial needs of highly qualified technical personnel with significant practical experience in their field. The utili- zation of remotely accessible laboratories is one of the technologies that is ex- pected to have a significant role in improving the attainment of hands-on skills. This paper presents the design and implementation of a LabVIEW software in- terface to remotelycontrol the FESTO MPS PA compact workstations. This workstation is commonly used as laboratory equipment and for training in the process-control filed. To showcase the developed remotely accessible process control laboratory, Proportional-Integral-Derivative (PID) and ON/OFF control- lers were designed and implemented on the system. The proposed remotely ac- cessible process control laboratory offers practical and industrial training over the Internet. This feature could open doors for sharing the laboratory's resources between higher educational institutes of the UAE. Which is expected to result in the optimal utilization of the available resources. The proposed remotely acces- sible process control laboratory is expected to have a major cost reduction of the usually high education system cost through the efficient utilization of the availa- ble laboratory equipment.
The project is aimed at developing and testing the use of mobile phones to remotelycontrol an appliance control system. The microcontroller would then control a device based on the information given to it. The proposed solution will need to be easy to use, simple, secure, robust, and be useful on most mobile phones. To achieve this testing will need to be carried out to create a useful system.
308 | P a g e has extremely low range and very low storage capacity . A wireless router based on ZigBee networks for home automation systems applications, which is capable of smart devices monitoring and controlling. The data of the devices can be effectively centrally controlled . Control home appliances using android application through cloud network. Integrate android devices and cloud network to control home appliances. Pachube is used as the cloud networking cloud here. X10 transmission method id used. The Arduino Duemilanoves flash drive does not operate well with the Arduino Ethernet Shield connected. Hence external Arduino flash drive is required. X10 transmission method is affordable but it has reliability issues in certain settings . A way to control home appliances using android application over internet. Using mobile application control home appliances through Arduino. Approach to develop android application and interfacing between Arduino and android application. The system uses Arduino which is inexpensive. Android application increases accessibility . Develop and design a prototype to control home appliances that can be controlled using android application through local area network or internet. Develop android application and create platform to control home appliances using Arduino. Radio frequency is used for plugging the appliances and hence it reduces the wiring required . Design small smart home system and created by utilizing WLAN network based on Arduino micro- controller. This system is able to control and monitor home appliances. Interfacing between Arduino and web application and control the home appliances through WLAN network. Advantage is that it uses Arduino which is inexpensive . Mobile based home automation solution that can facilitate people to remotelycontrol horne appliances using their personal android smart phones anywhere and anytime. Android based mobile application is developed using Android studio (Ver-1.5) that provides complete development environment for developing any mobile application including tools for compilation, verification, debugging and packaging . In this paper we have implemented an ON/OFF switch which will be controlled using the android application provided to the user.
All the fundamental information about this project are included. In order to provide a more efficient solution for all the problems stated, concept of drone that able to travel in both mediums is implemented. A Remotely Amphibian Vehicle (RAV) is to be designed and developed. Objectives are stated clearly so that project can be done successfully within due. Scopes and challenges are listed such as hardware design expectation, operational range and so on. Its purpose is to ensure the performance of the RAV hit the expectation. All these elements are very important in completing this project.
The extensive capabilities of this system are what make it so interesting. From the convenience of a simple cell phone, a farmer is able to control and monitor the motor in the agricultural field virtually from any distance. This makes it possible for the farmers to be rest assured that their motor activity is secure a n d that better water management can be made through the use of this project. The project will allow for improving the efficiency of the irrigation p r o c e s s . The end product has a simplistic design making it easy for farmers to interact wi t h . This will be essential because of the narrow range of technical knowledge that most of the farmers have [10-15].
The work of L. Muhury and A.H.M.A Habib  describes the design and implementation of a DTMF- based home automation system. The user calls a SIM number assigned to the home and presses the digits on their phone’s keypad to control the home’s devices by generating a DTMF tone. The tone is received and decoded by the GSM module at home using a DTMF decoder. The decoded instructions are passed to the microcontroller so that user commands can be implemented at home.
www.myOmnia.net is Allen & Overy’s remote working option. It can be accessed from within Allen & Overy from any of its offices globally or externally with an RSA SecurID token. The SecurID will either be a small, separate device or an application installed on your BlackBerry (see Appendix 1). Using Omnia remotely in this way gives normal access to Omnia including virtual files, Microsoft Office applications, Carpe Diem (including SmarTimers) and the Intranet; all that is required is a trusted PC with an Internet connection. 2. THREE IMPORTANT POINTS REGARDING YOUR PC/APPLE MACINTOSH
To reach main result and objective, the prototype ROV based on actual ROV VideoRay Pro III was built. The prototype of the ROV is built by following parameters of thruster configuration of ROV VideoRay Pro III (2 horizontal thruster and 1 vertical thruster). The dimension of prototypes built up by referring to VideoRay Pro 3s (30.5 x 22.5 x 21cm). Since this project related with depth control, the movement of ROV covered a vertical movement. The depth of ROV while doing an experiment is set less than 5m only. This project was carried out under the assumption of zero disturbance (controlled environment). This project were interfacing with Microbox 2000/2000C for the real time experiment.
The purpose behind elevating self-utilization is to diminish the weight on territorial medium and low voltage lattices. At any rate until the point that further advance is made in building a cutting edge control matrix, which is fit for appropriating fluctuating measures of vitality every which way and with next to no misfortune. Self-utilization diminishes the weight on control frameworks in two regards: Energy that is expended at a similar area where it is created never again must be transported over the matrix. Also, vitality required for utilization does not need to be obtained through people in general power matrix. One reason why self-utilization is so compelling is that it features one of the extraordinary favorable circumstances of photovoltaic frameworks: the great relationship between's energy age and vitality request after some time. A side from its capacity to diminish the weight on
Only one user is allowed to access at a one time. This configuration has direct connection to the embedded boards through IOT. The control embedded change the source by controlling the source changers which are connected to the smart grid power supplies of individual homes. All data consumption is check, data which used by MSEB is pay online. It Provide efficient, comfortable, safe and convenient, environmentally friendly living environment for people, which Sets system, service, management as a whole.
The data collected will regularly update in the cloud by the GPRS/GSM modem. Web of Things platform with initial applications tailored to building energy insight control. Once the data stored in the cloud using the Web service authenticated user can access data from anywhere in the world and can analyze the power consumption, he just need an internet connection for this and no any data.
Building and programming a robot is a combination of mechanics, electronics, and problem solving. What you're about to learn while doing the activities and projects in This text will be relevant to "real world" applications that use robotic control, the only difference being the size and sophistication. The mechanical principles, example program listings, and circuits you will use are very similar to, and sometimes the same as industrial applications developed by engineers .
Friedrich conducts rigorous performance tests to ensure customer satisfaction and safety. run tests are performed – for up to 120 continuous days – under typical, and extreme, temperature and humidity conditions. air flow systems are tested for powerful and precise air distribution, while sound levels are measured to ensure ultraquiet performance. premium air filters are tested for adsorption capacities and efficiencies. the unit’s control software is tested for constant and reliable operation. Packaging exceeds ISTA (International Safe Transit Association) standards in order to withstand transportation hazards. Quality components. advanced design technology. Extensive product testing. it’s what you can expect from Friedrich. Friedrich conducts rigorous performance tests and incorporates advanced design techniques to build the very best air conditioners.
The HFU-X310 Interface Unit is a 2U-high, half- rack-wide unit with an optical ﬁbre interface. Digital data – including external sync and camera control signals – can be transmitted between the HDC-X310 and the HFU-X310 via an optical ﬁbre cable*. This cable can be up to 1000 metres (3280 feet) long, allowing the camera to be installed virtually anywhere required.
For nearly three decades, KVM (keyboard/video/mouse) switches have been a critical technology asset for organizations of all sizes. During the early 1980s, the boom in the computer industry led to an increase of costly monitors and other control peripherals in server rooms and data centers. Aside from the added expenditures and space requirements, computer sprawl was problematic as it impacted rack space and caused heat disbursement issues, to name a few issues.