AbstrakUsaha pengentasan kemiskinan terus dilakukan di Kabupaten Tanah Laut.
Tanah Laut is one of the mainstays of the tourist sector in South Kalimantan. Tanah Laut Regency has tourism potential, one of which is religious tourism. Religious tourism is a tourist activity to get fun or entertainment, also will get lessons about Islamic teachings and increase knowledge. The government of Tanah Laut regency conducting tourism promotions still through mass media such as newspapers and pamphlet methods is not enough to support tourist attractions for tourists. And there is no specific information system on religious tourism and besides that in the Tourism Office the data on religious tourism in several sub-districts in the regency of the sea are still not yet complete or complete in the data collection of religious tourism spots. The purpose of the research is to make a design and a Geographic Tourism Information System that can display a picture and provide detailed information on the location of religious tourism in several sub-districts in Tanah Laut district. Information in the form of a web mobile is expected to help the community to access it anywhere and anytime. In geographical information systems, religious tourism is built using the Hypertext Preprocessor (PHP) and JavaScript programming languages.
Berkah Bersama Company is a core partnership company engaged in broiler farming. Within the company, there are three divisions, namely general and finance, logistics, production, and marketing. The production and marketing division plays a role in the growth of chickens to the sale of chickens. After the chicken is sold, the data on chicken growth and chicken sales will be recapitulated using Microsoft Excel. The process of data collection is still often an error in data input and at the time of data recapitulation often occurs calculation errors and losses in the final process. From these problems, the authors conduct research by building a web-based mutual blessing information system in the production and marketing division that will solve the above problems. The research method used is an incremental model that applies the stages in parallel where the first stage has not been completed, so it can go to the next stage. And the system design uses entity relationship diagrams and an integrated modeling language. The result of this research is a blessing information system with web-based production and marketing divisions that can assist and simplify data input and data recording in the production and marketing divisions.
Technological developments in the communication and information area can changes the lifestyle of the human become the digital lifestyle. Digitalization on the aspects of life can provide convenience for humans. Like the household appliances that can be controlled by a smartphone. In 2015 Nugraha build a light management system with android smartphone via bluetooth media. In addition, the lights are also can be controlled automatically by time and light (LDR). The disadvantages of this system are the lights that can not be used remotely and can not give notice to the home owner about the status “on or off” of the light. This research aims to design a multicontrol system to control the light with several media follows : bluetooth, voice, light (LDR), timer, website and SMS as notification of light status. System development method in this research using Waterfall method. The test results using bluetooth, light(LDR), voice, and timer provide a fast response with average less than 2 seconds.
Broilers are fast growing animals that are influenced by environmental conditions. Routine monitoring is needed, especially temperature, humidity and ammonia levels. In this study, the authors propose an embedded system that can detect temperature, humidity and ammonia levels. This system works by sending temperature, humidity and ammonia gas information routinely once a day to the henhouse operator via text message (SMS), or information will be sent if environmental conditions are above/below the threshold. The embedded system was built using microcontrollers, temperature and humidity sensors as well as ammonia sensors. The microcontroller uses Arduino. Temperature and humidity sensors use DHT11, while the ammonia level sensor uses MQ-135. Embedded system communication uses the GSM SIM800L module, this module is responsible for sending the henhouse environmental conditions to the operator via SMS. Testing is done in two stages, namely functionality and connectivity. The functionality test proves that the sensor can produce information on temperature, humidity and ammonia levels by comparing it with conventional tools. The connectivity test proves that the GSM SIM800L module can send monitoring data every day and certain conditions.
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