In August of the following year they followed up with a version for the Linux Platform. In August 2008 Navicat decided to further continue their product line and branch out into the Oracle community, creating Navicat for Oracle for Windows and Mac. The Linux version of Navicat for PostgreSQL would not be released until 3 years later in August 2009. PremiumSoft continued to expand their Navicat series by releasing Navicat for PostgreSQL for Windows in October 2005 and then for Mac OS X in June 2006. In November 2013, added the support of MariaDB. Subsequently, the company released two additional versions of Navicat for MySQL on the Mac OS X and Linux operating system in June and October 2003 respectively. Officially released in March 2002, the Windows version of Navicat for MySQL became the first product offered to the public by PremiumSoft. It supports Linux platform via bundled Wine. Upon purchase, users are able to select a language for the software from eleven available languages: English, French, German, Spanish, Japanese, Polish, Russian, Portuguese, Korean, Simplified Chinese and Traditional Chinese. Navicat is a cross-platform tool and works on Microsoft Windows, Mac OS X and Linux platforms. In 2008, Navicat for MySQL was the winner of the Hong Kong ICT 2008 Award of the Year, Best Business Grand Award and Best Business (Product) Gold Award. The main target of the initial version was to simplify the management of MySQL installations. The initial version of Navicat was developed by Mr. Its design is made to meet the needs of a variety of audiences, from database administrators and programmers to various businesses/companies that serve clients and share information with partners. It has an Explorer-like graphical user interface and supports multiple database connections for local and remote databases. for MySQL, MariaDB, Redis, MongoDB, Oracle, SQLite, PostgreSQL and Microsoft SQL Server. Navicat is a series of graphical database management and development software produced by CyberTech Ltd. This article presents a Virtual Transducer Electronic Data Sheet (VTEDS)-based framework for the development of intelligent sensor nodes with plug-and-play capabilities in order to contribute to the evolution of the Internet of Things (IoT) toward the Web of Things (WoT).SQL database management and development system It makes use of new lightweight protocols that allow sensors to self-describe, auto-calibrate, and auto-register. Such protocols enable the development of novel IoT solutions while guaranteeing low latency, low power consumption, and the required Quality of Service (QoS). Thanks to the developed human-centered tools, it is possible to configure and modify dynamically IoT device firmware, managing the active transducers and their communication protocols in an easy and intuitive way, without requiring any prior programming knowledge. In order to evaluate the performance of the system, it was tested when using Bluetooth Low Energy (BLE) and Ethernet-based smart sensors in different scenarios. #NAVICAT FOR MYSQL 2016 SERIAL GITHUB BLUETOOTH# Specifically, user experience was quantified empirically (i.e., how fast the system shows collected data to a user was measured). The obtained results show that the proposed VTED architecture is very fast, with some smart sensors (located in Europe) able to self-register and self-configure in a remote cloud (in South America) in less than 3 s and to display data to remote users in less than 2 s. The Internet of Things (IoT) is no longer a novel concept and has already become an everyday term. In fact, the IoT market has maintained a sustainable growth in the last several decades and is estimated to grow to 20 billion devices in 2020. IoT infrastructure engages in multiple application domains and in emerging businesses where physical and virtual devices are able to inter-operate through a data network without human intervention. Examples of IoT applications can be found for smart cities, smart homes, e-health, intelligent transportation, critical infrastructures, precision agriculture, smart factories, or for Industry 4.0. These applications are increasingly heterogeneous, complex, and demanding. Īt the foundations of every IoT platform are the “things” that are intelligent sensors and actuators usually connected to wireless networks (thus creating a Wireless Sensor Network (WSN)).
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