Automatic Billing System using Li-Fi Module

Supermarket Billing System App

Automatic Billing System using Li-Fi Module

We use Li-Fi Transceivers placed at both trimmings of the corridor and on the cart to assemble material on the appearance/exit status of the cart and the bay certification. Moreover the locating of these Li-Fi Trans- earphones on the shop cart and on the pathways will be crucial to the correct working of shop cart. Further, as Li-Fi equipment works on line of eyesight, it is main to ensure that there is no obstruction in the entry or exit of each aisle. All the product material is stored in a folder at a central server with the location data IP. We will record the ID, appellation and the price of the product. Li-FI transceivers are used to inimitably ascertain products.

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PIC is a family of modified Harvard construction complete by computer chip technology, derived from the PIC1650 originally developed by General Instrument’s microelectronics division. The name PIC firstly was referred to bordering boundary controller. It can store upto 35 instruction set and can only recognize hex values. Primary images of PIC had read-only memory (ROM) or field-programmable EPROM for program storage, some with facility for removing memory. All current models convention Flash memory for program storage, and newer models permit the PIC to reprogram itself. Sequencer memory and data. Data recall is 8-bit, 16-bit and in up-to-date models. 32-bit wide. Program plans vary in bit-count by family of PIC, and may be 12, 14, 16, or 24 bits long. The directions set also varies by model, with more firm chips tally advices for digital signal giving out occupations. The hardware capabilities of PIC devices range from 8-pin DIP chips up to 100 pin SMD[2-3] chips, with disconnected I/O pins, ADC and DAC elements and public services ports such as UART, 12C, CAN, and even USB. Low-power and high-speed dissimilarities exist for countless sorts. The producer materials supercomputer software for progress known as MPLAB, assemblers and C/C++ compilers, and program hardware under the MPLAB and PICK it series. Third party and some open-source tools are also available. Some parts have in-circuit software design capability; low-cost expansion computer operator are accessible as well has high-production computer operator. PIC devices are popular with both industrial developers and hobbyists due to their low cost, wide availability, large user base, widespread assembly of application notes, and availability of low cost or free advance tools, sequential programming, and re-programmable Flash-memory ability. Click Here
Li-Fi stands for Light-Fidelity. Li-Fi expertise, proposed by the German physicist—Harald Haas, provides program of datathrough brightness by transfer data complete an LED light bulb that diverges in power sooner than the hominoid eye can follow. This paper efforts on evolving a Li-Fi based system and studies its act with respect to prevailing technology. Wi-Fi is great for general wireless coverage within buildings, although Li-Fi is ideal for high stupidity wireless data reporting in restricted area and for sacking receiver prying issues. Li-Fi runs improved bandwidth, efficiency, proximit and safety than Wi-Fi and has now realized blisteringly high quickness in the lab. By leveraging the low cost nature of LEDs and lighting units there are many occasions to deed this midway, from public internet access done street lamps to auto-piloted cars that interconnect through their headlights. Haas visualizes future where data for laptops, smart earphones, and tablets will be communicated through the light in a room.

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Instant Messenger in Android Operating System

Instant Messenger in Android Operating System
Smartphone growths very fast since 2013, marked by the number of smartphone users reached ± 1.311.200.000 and continuously increase each year up to ± 300 million. In the early 2015 the growth of smartphones has reached ± 1.914.600.000[1].According to International Data Corporation (IDC) 2015, smartphones that dominate the world's market are Android and iOS. Android dominated the market with an 82.8% share in August 2015, followed by iOS with 13.9%, then the remaining 2.6% is held by Windows Phone, Blackberry and other smartphones [2].Recently, instant messenger is no longer a foreign mattertechnology in human society. Instant messenger is an application software that development of computer technology and internet, it was created as a tool that helps human communication. Instantmessenger refers to the service for actualizingvarious interactive communication within cyber space, such as verifying access of other users, or sending and receiving messages or files between individuals or groups[3].Android smartphone has 8 advantages from its competitors, iOS and WindowsPhone, i.e. Affordability Alternative Appstore, Battery Life, Customizability, Rooting, Cloud Service, Photo Backup, and Maps, while iOS has 6 advantages, i.e. Application, Appstore, Updates, Peripherals, Security and Camera, and WindowsPhone only have one advantage that is Voice Assistant. Against the advantages, it turns out that there are only five points that are owned by third smartphone, namely interface, calls & messenger, email, connectivity and simplicity[4].Whatsapp is an instant messenger application with most users defeated SMS as one of themessaging technology. Based on research in 2015 says that Whatsapp every day to send a message, while SMS every day to send a message. (Research, 2015) The optimization of mobile services faces several challenges, if continuous optimization process is not there, operators would not be capable of adapting their cellular networks to the evolution of mobileserviceapplications.Cellular network optimization can be seen as a process to improve the overall network quality as experienced by the mobile subscribers and to ensure that the network resources are efficiently utilized. In design of any system Quality of Service (QoS) is one of the important issues from both customers and providers point of view that means customers expect the service of best quality from the system providers and providers want to give best quality of service to the customers from the system. Same in case of wireless communication systems. All the parameters related to QoS are having different importance for all customers and applications. The contentment level of different customers depends on different QoS parameters[5].The general quality of service (QoS) parameters most considered in the packet switched network are delay, packet size, and throughput [6].Quality of service (QoS) has a standard requirement for some primarily one-way of media data transfer/retrieval that is throughput should be less than 384 kbit/s or 384000 bit/s bps and delay should be less than 10 second [7].Based on the data above, the number of instant messenger is more than the number of smartphones itself that dominated by Android and iOS operating systems. However, according to DigitalTrends, these two operating systems ability are tend to be balance.  

The results of the performance evaluation instant messenger applications on Android operating system and iOS using simulation as consisting of stages of problem formulation, conceptual models, input & output data, modeling,simulation,verification and validation, experimentation, and output analysis with delay parameter on Android operating system by 0.1004 second and IOS operating system 0.0544 second, packet size on the Android operating system at 813.22 bytes and IOS operating system 621.67 bytes and throughput on Android operating system amounting to 554625.83 bit/s and IOS operating system 215615.94 bit/s indicate that the performance of instant messenger applications on the IOS operating system able to send and receive messages faster than instant messenger applications on the Android operating system.https://codeshoppy.in/

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Android Application for Fiber Optic Infrastructure

Android Application for Fiber Optic Infrastructure
Fiber optic has an important role in the development of telecommunications infrastructure in Indonesia. Better network performance and quality of the speed that offered by fiber optic can support the data requirement which continues to increase every year. In Indonesia, Fiber Optics is used as the primary network infrastructure Backbone and Access and still continue to develop the fiber optic network in Indonesia. Therefore, the process of reporting, controlling and monitoring are imperative for network deployment of fiber optic network by using an application system to be more efficient and accelerate the decision-making process. In this study FOMApps is made, an android-based application that facilitates the requirements of monitoring, controlling and reporting the fiber optic project between the Government and fiber optic deployment provider. In particular, FOMApps include different reporting formats for each type of job. The test results of reporting system Optical Fiber Cable (Outside Plant) has a speed in delivering the report amounted to 257.516 seconds. So from the results that are obtained, the application is feasible for use in reporting the deployment of Outside Plant Fiber Optic. With the existence of this application, we expect the process of controlling and monitoring between the Government and fiber optic deployments providers are achieved.

It can be found in MP3EI program launched by the Government of Indonesia in 2011 - 2025. There are eight main focuses of the program which one of them is Telematics (Telecommunication & Informatics). Telematics is a right Meta Infrastructure and becomes an important requirement for maintaining the sustainability of economic growth [1]. According to Presidential Regulation no. 28 of 2008 regarding the National Industrial Policy, Telematics has been recognized as a mainstay industry of the future [2].To support the future acceleration and expansion of economic development, the development of telematics infrastructure needs to be adapted to the international trends and new technologies that available. Therefore, the Indonesian Government has targeted the development of National Broadband Network (NBN) in the period of 2010-2015. This is according to a World Bank study (2009) which states that for every 10 percent of increasing in broadband penetration can boost economic growth by 1.38 percent [1]. One of the regulations and policies of the Government in developing this infrastructure is by provisioning fiber optic network (backbone and last mile) with the required broadband capacity. Telecommunications Law no. 36 of 1999 states that the development of telecommunications is held by the Government and the implementation can be held by the enterprises that already have the legality of the law [3]. Until now, the implementation of fiber-optic network infrastructure in Indonesia is conducted by several Telecommunications Operator. But the conditions of the current Government can not fully implement guidance, especially in monitoring and controlling. Miscommunication and mistrust between the lines often happen when controlling the project. It can cause the slow completion of telecommunication infrastructure development projects. Indirectly it impedes the Government programs that have been implemented. To facilitate the discrepancy between the equalization program and acceleration of economic development through the development of telecommunications infrastructure, especially fiber optics, in this study we create an application prototype called FOMApps (Fiber Optic Project Controlling & Monitoring Application). Optical measurement is usually taken after the installation of the network or it can also be done periodically in order to maintain the network. After completing the installation of optical networks, testing is performed to prove that the networks are installed based on the plan. The testing is performed by measuring the received power using an optical power meter. It can also be performed by loss test network using optical time domain reflectometer. Usually, the results of thesemeasurements are manually recorded. After that, Some report draft was made for reporting the installation process. Measurement which is performed after the installation in real time can be reported at the same time, so it will save time and cost. A real time measurement device which is used in the field can be modified and replaced by the FOMApps. This modification was made by adding an interface between the photodetector output and FOMApps device, so the reporting results of installation testing can be done in real time. This application is expected to be a Government media in implementing the monitor process and control of Optical Fiber project to comply the Government standards. The data used are provisional data. In the future, the data will be automatically updated directly from Government.CodeShoppy

 Submission of material samples and supplier for the main material should be prepared under a contract with the project owner (fiber optic cable, HDPE, warning tape, OTB and closure) Licensing is addressed to the Provincial Office and the City Council or the District Council, also coordinate with the related agencies (including PLN, PDAM, Pertamina, PGN, Telkom or other telecommunications providers). Coordination with the third parties when required due to the possibility of jobs that across a private area.

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Controlling Project Based onAndroid Application

Controlling Project Based on Android Application

Indonesia is a country that aggressively executes equity and acceleration of economic development in the entire region. It can be found in MP3EI program launched by the Government of Indonesia in 2011 - 2025. There are eight main focuses of the program which one of them is Telematics (Telecommunication & Informatics). Telematics is a right Meta Infrastructure and becomes an important requirement for maintaining the sustainability of economic growth [1]. According to Presidential Regulation no. 28 of 2008 regarding the National Industrial Policy, Telematics has been recognized as a mainstay industry of the future [2].To support the future acceleration and expansion of economic development, the development of telematics infrastructure needs to be adapted to the international trends and new technologies that available. Therefore, the Indonesian Government has targeted the development of National Broadband Network (NBN) in the period of 2010-2015. This is according to a World Bank study (2009) which states that for every 10 percent of increasing in broadband penetration can boost economic growth by 1.38 percent [1]. One of the regulations and policies of the Government in developing this infrastructure is by provisioning fiber optic network (backbone and last mile) with the required broadband capacity. Telecommunications Law no. 36 of 1999 states that the development of telecommunications is held by the Government and the implementation can be held by the enterprises that already have the legality of the law [3]. Until now, the implementation of fiber-optic network infrastructure in Indonesia is conducted by several Telecommunications Operator. But the conditions of the current Government can not fully implement guidance, especially in monitoring and controlling. Miscommunication and mistrust between the lines often happen when controlling the project. It can cause the slow completion of telecommunication infrastructure development projects. Indirectly it impedes the Government programs that have been implemented. To facilitate the discrepancy between the equalization program and acceleration of economic development through the development of telecommunications infrastructure, especially fiber optics, in this study we create an application prototype called FOMApps (Fiber Optic Project Controlling & Monitoring Application). Optical measurement is usually taken after the installation of the network or it can also be done periodically in order to maintain the network. After completing the installation of optical networks, testing is performed to prove that the networks are installed based on the plan. The testing is performed by measuring the received power using an optical power meter. It can also be performed by loss test network using optical time domain reflectometer. Usually, the results of these measurements are manually recorded. After that, Some report draft was made for reporting the installation process. Measurement which is performed after the installation in real time can be reported at the same time, so it will save time and cost. A real time measurement device which is used in the field can be modified and replaced by the FOMApps. This modification was made by adding an interface between the photodetector output and FOMApps device, so the reporting results of installation testing can be done in real time. This application is expected to be a Government media in implementing the monitor process and control of Optical Fiber project to comply the Government standards. The data used are provisional data. In the future, the data will be automatically updated directly from Government.

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With the existence of FOMApps, communication for the process of reporting, monitoring and controlling between Government and provider can be performed effectively and quickly. Every problem that happen in the field can be quickly reported and solved. Governments and Telecommunication provider can utilize FOMApps to realize the Governments program in telecommunication infrastructure. The data will continue to be updated directly from the fiber optic project location. This application will continue to be developed and improved

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