The Development of Android Based Dictionary For Graphic Technique

Dictionary is one of the important media in learning English. Along with the rapid development of mobile technology at this time, the various applications for mobile is widely developed as a medium of learning, one of them is the application of Android-based dictionary. Dictionaries on mobile devices are more practical than conventional dictionaries, as users can receive information quickly anywhere without space and time constraints. Related to this, the research aims to create a dictionary application of English-Indonesian graphics techniques capable of running on android-based phones. This application is built to help and meet the needs of students majoring in graphic technique in searching for meaning and understand various English words related to science of graphics. The collection of words and phrases (word entries) related to the science of graphic technique is done through literature studies of books, internet and other relevant sources. In addition, the collection of words and phrases is also done by conducting in-depth interviews with lecturers or graphic technique experts. The programming languages used in making this language dictionary application use Java 2 Micro Edition (J2ME) and SQLite. The dictionary after being validated of 4.14 with good category) and tested received positive response from the students indicated with very positive questionnaire results.

Aplikasi Mobile WEB Map Service Pada Mobile Device Dengan SVGT

Abstract— Teknologi informasi geografi berkembang sangat pesat dalam beberapa dekade terakhir ini. Sekarang ini, WMS (Web Map Services) tidak hanya dapat menghasilkan gambar raster tetapi juga gambar vektor. Contohnya adalah SVGT (Scalable Vector Graphics Tiny) yang merupakan bagian dari SVG (Scalable Vector Graphics) yang digunakan pada piranti mobile device. Mahalnya biaya komunikasi antara handheld device dengan jaringan internet melalui GPRS (Global Pocket Radio System) menimbulkan sebuah masalah dalam penerapan aplikasi mobile mapping. Untuk mengeliminasi masalah tersebut, harus dibuat sebuah aplikasi mobile mapping yang dapat mentransfer data sekecil mungkin. Didalam penelitian ini, dicoba untuk dibuat sebuah server pemetaan yang memanfaatkan teknologi SVGT dan XML. Kedua format data tersebut digunakan untuk menghasilkan data sekecil mungkin agar dapat menghemat biaya komunikasi antara klien dan server. Pada akhirnya, aplikasi yang dibangun akan menjadi sebuah server yang memiliki klien berupa handheld / mobile device.Aplikasi ini dibangun dengan bahasa pemrograman PHP dan memanfaatkan database PostgreSQL beserta ekstensi PostGIS-nya pada sisi server dan J2ME (Java 2 Micro Edition) pada sisi mobile client. Aplikasi yang telah dibangun mampu untuk menampung peta jalan dari sebuah daerah, menampilkannya dalam format SVGT kepada klien, serta mencari rute terpendek antara dua buah jalan dengan menggunakan algoritma Floyd-Warshall. Mobile device sebagai client mempunyai beberapa fungsi utama, yaitu download map dengan format SVGT dari server, menyimpan map ke dalam record store, menampilkan map dan juga melakukan fungsi pan dan zoom terhadap map. Fungsi lainnya adalah searching atau mencari titik tertentu pada map sesuai dengan permintaan user, request path ke server untuk mendapatkan jalur terpendek antara dua titik, dan set mark atau menyimpan titik-titik pada peta yang telah diberi tanda oleh user.Keywords— SVG, SVGT, Mobile Mapping, Web Map Services, J2ME, Java 2 Micro Editon.

Venture Investing in Wireless Communications Technology

This is a case study in venture investing. ThinAirApps (TAA) created, developed, and sold wireless middleware software products and services. Founded in July 1999, the company received its first and only round of venture financing in June 2000, raising $13 million in equity capital from Safeguard Scientifics, Inc., and a group of angel investors. The company’s software products enabled enterprises of all types and sizes to rapidly and cost-effectively “wirelessly” enable their mobile workforces; giving professionals access to not only common data such as e-mail, calendars, and contacts (groupware), but also data from more complex desktop or server applications, databases, or other systems. All of this data resides “behind-the- firewall.” Adding to TAA’s uniqueness was its ability to access this data securely. Let us remember that in 1999 voice-over-wireless was prevalent in the United States. Corporate America had largely embraced the administration of cell phones to workforces, and just one year before, AT&T Wireless had cracked the code with its One-Rate national business calling plan. However, the transmission of data (other than voice) over a terrestrial network to handheld devices such as cell phones and PDAs was not a broad commercial reality. In 1999, according to the Strategis Group, there were less than three million smartphone and wireless PDA units sold (by 2004 the number had exceeded 60 million). In addition to a host of players including Research in Motion, Palm introduced its seventh generation PDA device, the Palm VII. This first fully-contained wireless device for Palm exploited underused terrestrial data networks to provide users primitive (by comparison to today’s technologies) access to a variety of wireless data, including Palm-sponsored e-mail and selected Internet destinations. The uniqueness of Palm and its open development platform, which gave rise to an industry that developed everything from games to productivity enhancing applications for use on the devices, created a watershed in the wireless data industry, and was largely the basis for the TAA business model. TAA became an early leader in the rapidly developing yet immature wireless data industry. At the time of our investment, TAA’s product, ThinAirMail, was the single most frequently downloaded add-on application for the Palm VII device— nearly 30,000 individuals were using it to access their e-mail wirelessly. While the company was just entering its revenue stage, it had already established significant market awareness by enabling tens of thousands of individual users to access their personal e-mail while on the move. The company’s product was based on open standards—in other words it ran well regardless of which device operating system (Palm, BlackBerry, WAP-enabled cell phone, Java 2 Micro Edition, etc.), network (TDMA, CDPD, CDMA, etc.), or application (e-mail, or other enterprise application for which TAA wireless API’s had been created) was being used. The company’s revenue model was based primarily on enterprise sales of its flagship product, the ThinAir Server, which was a middleware server that connected to the corporate e-mail server (more often than not Microsoft Exchange) and allowed customization for connecting to other applications. Thus, the low-hanging fruit of instantaneous wireless data access could be realized—groupware including e-mail, calendar, and contact information was at a professional’s fingertips while otherwise disconnected from the network. The TAA Software Development Toolkit (SDK) allowed organizations to build custom connections from their other enterprise applications directly into the ThinAir Server. The opportunities were significant, inventory pricing on a real time basis, instant ordering, real time accounting system updating, and all while away from the office and disconnected from the network.

Java 2 Micro Edition for Wireless Enterprise Applications

Advancements in wireless technologies have made it possible to build wireless enterprise applications. An enterprise application calls for challenging requirements such as two-way data transfer, complex business logic, and multiple system users. These applications will make great impact to the operations of a company that will result in the increase of the company’s revenue.This chapter examines and develops one enterprise scenario, a customer support system, using Java 2 Micro Edition (J2ME). J2ME allows applications to be executed locally using a mobile device’s processing capacity and resources. We outline the design of a relational database to store frequently accessed data and describe the usage of XML for data exchange for better interoperability with back-end systems. Extensions to mobile commerce (m-commerce) are also considered. Bank account information and financial transaction instructions are treated as data to be sent over the wireless network. However, as in the case of e-commerce, the security of the transaction is the primary concern and some cryptography techniques need to be used.

Aplikasi Perhitungan LOSS Sambungan SKSO Dengan Menggunakan Handphone Berbasis Java (J2ME)

Dunia Teknologi Informasi (TI) telah berkembang pesat salah satunya adalah bahasa pemrograman. Ada beberapa bahasa pemrograman, diantaranya adalah Java. Program Java yang digunakan adalah Java 2 Micro Edition (J2ME) digunakan untuk menjalankan dan mengembangkan aplikasi-aplikasi Java pada perangkat semacam handphone, PDA (Personal Digital Assistance) Palm, dan poket PC. Hasil studi pemanfaatan handphone sebagai media perencanaan di perhitungan link budget di ilmu telekomunikasi menunjukkan hasil ada peningkatan efisiensi dan kecepatan waktu dalam proses perhitungan. Dalam penelitian ini akan dilakukan hal yang sama, namun untuk perhitungan loss sambungan

Aplicación móvil de telemedicina para pacientes hipoglucémicos y diabéticos

Se desarrolló un proyecto de telecomunicaciones para la supervisión médica remota de pacientes hipoglucémicos y diabéticos; el prototipo permite a los médicos monitorear a los pacientes con el fin de mantener el control de su salud. El sistema completo consiste de una aplicación móvil instalada en el dispositivo de cada paciente; una base de datos relacional que almacena la información; y una aplicación servidor que utilizan los médicos para diagnosticar con base a la condición de sus pacientes. Para el desarrollo del proyecto se diseñó e implementó la metodología DAM (Desarrollo de Aplicaciones Móviles); siguiendo ésta, se obtuvo como resultado el correcto funcionamiento integrado de cado uno de los elementos del sistema y una evaluación satisfactoria del potencial de éxito de la aplicación móvil.Palabras clave: DBMS, glucosa, Java 2 Micro Edition, SMS.