A graphical user interface for presenting integrated development environment command recommendations: Design, evaluation, and implementation

2017 ◽  
Vol 92 ◽  
pp. 236-255 ◽  
Author(s):  
Marko Gasparic ◽  
Andrea Janes ◽  
Francesco Ricci ◽  
Gail C. Murphy ◽  
Tural Gurbanov
Keyword(s):  
User Interface ◽  
Graphical User Interface ◽  
Design Evaluation ◽  
Integrated Development Environment ◽  
Development Environment ◽  
Integrated Development

scholarly journals JupyTEP IDE as an Online Tool for Earth Observation Data Processing

2019 ◽  
Vol 11 (17) ◽  
pp. 1973 ◽  
Author(s):  
Rapiński ◽  
Bednarczyk ◽  
Zinkiewicz
Keyword(s):  
User Interface ◽  
Data Processing ◽  
European Space Agency ◽  
Earth Observation ◽  
Observation Data ◽  
Cloud Infrastructure ◽  
Integrated Development Environment ◽  
Development Environment ◽  
Integrated Development ◽  
Earth Observation Data

The paper describes a new tool called JupyTEP integrated development environment (IDE), which is an online integrated development environment for earth observation data processing available in the cloud. This work is a result of the project entitled “JupyTEP IDE—Jupyter-based IDE as an interactive and collaborative environment for the development of notebook style EO algorithms on network of exploitation platforms infrastructure” carried out in cooperation with European Space Agency. The main goal of this project was to provide a universal earth observation data processing tool to the community. JupyTEP IDE is an extension of Jupyter software ecosystem with customization of existing components for the needs of earth observation scientists and other professional and non-professional users. The approach is based on configuration, customization, adaptation, and extension of Jupyter, Jupyter Hub, and Docker components on earth observation data cloud infrastructure in the most flexible way; integration with accessible libraries and earth observation data tools (sentinel application platform (SNAP), geospatial data abstraction library (GDAL), etc.); adaptation of existing web processing service (WPS)-oriented earth observation services. The user-oriented product is based on a web-related user interface in the form of extended and modified Jupyter user interface (frontend) with customized layout, earth observation data processing extension, and a set of predefined notebooks, widgets, and tools. The final IDE is addressed to the remote sensing experts and other users who intend to develop Jupyter notebooks with the reuse of embedded tools, common WPS interfaces, and existing notebooks. The paper describes the background of the system, its architecture, and possible use cases.

scholarly journals Implementation of Pll in Rf Transceiver using SPI and Uart Protocols

2019 ◽  
Vol 8 (4) ◽  
pp. 10020-10024
Keyword(s):  
User Interface ◽  
Graphical User Interface ◽  
Software Defined Radio ◽  
Vital Role ◽  
Rf Transceiver ◽  
Development Environment ◽  
Integrated Development ◽  
Data Format ◽  
Cross Platform ◽  
Serial Peripheral Interface

Software Defined Radio plays vital role in many applications as the components in it are software selectable. We can select desired frequency and modulation technique which can be selected through software. The desired frequency selected should be locked in phase locked loop (PLL). The desired frequency is selected by giving commands from Graphical User Interface (GUI) using Universal Asynchronous Receiver Transmitter (UART) and Serial Peripheral Interface (SPI) protocols.GUI is created using Qt creator which is a cross platform C++ and java script Integrated Development Environment (IDE). GUI is designed to generate the desired frequency. As soon as we select a frequency, the corresponding address and data are generated to configure in the Radio Frequency (RF) transceiver. These address and data are first sent to the PIC microcontroller by communicating through UART protocol and after setting data format, these are sent from Peripheral Interface Controller (PIC) to RF transceiver by communicating through SPI protocol. With this process, the registers in RF transceiver are controlled by the user

Introduction to the Popular Open Source Statistical Software (OSSS)

2020 ◽  
pp. 73-110
Author(s):  
Zhijian Wu ◽  
Zichen Zhao ◽  
Gao Niu
Keyword(s):  
Statistical Analysis ◽  
User Interface ◽  
Open Source ◽  
Graphical User Interface ◽  
Proper Selection ◽  
Development Environment ◽  
Integrated Development ◽  
Statistical Software ◽  
Analysis Task ◽  
Selection Of

This chapter first introduces the two most popular Open Source Statistical Software (OSSS), R and Python, along with their Integrated Development Environment (IDE) and Graphical User Interface (GUI). Secondly, additional OSSS, such as JASP, PSPP, GRETL, SOFA Statistics, Octave, KNIME, and Scilab, will also be introduced in this chapter with function descriptions and modeling examples. The chapter intends to create a reference for readers to make proper selection of the Open Source Software when a statistical analysis task is in demand. The chapter describes software explicitly in words. In addition, working platform and selective numerical, descriptive, and analysis examples are provided for each software. Readers could have a direct and in-depth understanding of each software and its functional highlights.

Introduction to the Popular Open Source Statistical Software (OSSS)

2021 ◽  
pp. 782-816
Author(s):  
Zhijian Wu ◽  
Zichen Zhao ◽  
Gao Niu
Keyword(s):  
Statistical Analysis ◽  
User Interface ◽  
Open Source ◽  
Graphical User Interface ◽  
Proper Selection ◽  
Development Environment ◽  
Integrated Development ◽  
Statistical Software ◽  
Analysis Task ◽  
Selection Of

This chapter first introduces the two most popular Open Source Statistical Software (OSSS), R and Python, along with their Integrated Development Environment (IDE) and Graphical User Interface (GUI). Secondly, additional OSSS, such as JASP, PSPP, GRETL, SOFA Statistics, Octave, KNIME, and Scilab, will also be introduced in this chapter with function descriptions and modeling examples. The chapter intends to create a reference for readers to make proper selection of the Open Source Software when a statistical analysis task is in demand. The chapter describes software explicitly in words. In addition, working platform and selective numerical, descriptive, and analysis examples are provided for each software. Readers could have a direct and in-depth understanding of each software and its functional highlights.

Perancangan Apilkasi Parenting Penguatan Perilaku Positif Anak oleh Orang Tua Berbasis Android

2018 ◽  
Vol 17 (2) ◽  
pp. 1-12
Author(s):  
Elly Mufida ◽  
Martini Martini ◽  
Ady Hermawan
Keyword(s):  
Integrated Development Environment ◽  
Development Environment ◽  
Integrated Development

Saat ini banyak orang tua memberikan fasilitas smartphone pada anaknya dengan alasan agar komunikasi antara mereka tetap terjaga, terutama bagi orang tua yang sibuk dengan karirnya. Namun sayangnya, kecendrungan anak-anak untuk memilih bermalas-malasan dengan smartphone yang dimiliki dibandingkan dengan melaksanakan kewajiban mereka. Sehingga smartphone yang harusnya memberikan manfaat positif justru menjadikan perilaku anak cenderung mengarah ke hal yang negatif. Oleh karena itu, dibutuhkan sebuah aplikasi mobile untuk orang tua dan anak yang dapat membantu mengurangi perilaku negatif anak menjadi ke arah yang lebih positif. Metode waterfall digunakan untuk pembangun aplikasi ini. Sedangkan untuk pembuatan aplikasi ini, penulis memilih Android Studio sebagai Integrated Development Environment (IDE) untuk pengembangan aplikasi. Aplikasi Parenting berbasis Android ini dapat membantu orang tua dalam pembentukan perilaku positif anak disamping kesibukannya. Pada aplikasi ini, orang tua dapat memberikan daftar tugas yang harus diselesaikan olah anak dengan rentang waktu tertentu. Pada login anak, anak dapat memberikan status tugas yang telah diberikannya. Jika anak telah menyelesaikan tugasnya, orang tua dapat memeriksa dan memberikan skor tugas tersebut, dimana skor tersebut akan terakumulasi. Pada posisi skor tertentu, orang tua dapat memberikan reward kepada anaknya

Study on an Integrated Development Environment for PAC with Complete Intellectual Property

2011 ◽  
Vol 135-136 ◽  
pp. 944-949
Author(s):  
Ji Quan Yu ◽  
Wan Tao Qian ◽  
Xin Gang He
Keyword(s):  
Data Management ◽  
Research Team ◽  
Interface Layer ◽  
Functional Modules ◽  
Integrated Development Environment ◽  
Development Environment ◽  
Integrated Development ◽  
Text Input ◽  
Input Mode ◽  
Intellectual Properties

PAC(programmable automation controller) is a new trend of the industrial controller, but for now, most IDEs(integrated development environment) are still providing the PLC mode for users, which can not take full advantage of the PAC. Further more, in China, there is still not such IDE with complete intellectual properties for PACs designed by Chinese companies. For above purposes, the CHD-PACIDE was implemented which supported the ARM cortex-Mx series microcontrollers. This IDE consists of three layers, interface layer, data management layer and kernel layer, which managed functional modules respectively. Based on a C-like language Engineer C defined by our research team, the interface layer provided the structural graphical input mode and the text input mode for users to edit their code. The data management layer used the XML with specified format manage the flow of data. The kernel layer had two parts which were implemented in the IDE and the debug microcontroller stm8s, this layer can be used to debug user’s code through the Jtag port under the Coresight debugging structure of ARM. This IDE could be updated easily by adding the specific XML file for the new microcontroller used by the specific PAC.

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