?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=RANCANG+BANGUN+SISTEM+PEMANTAU+KUALITAS+AIR+TAMBAK%0D%0AUDANG+MENGGUNAKAN+MAPPI32+BERBASIS+INTERNET+OF+THINGS&rft.creator=BAGUS%2C+HENDRAWAN&rft.subject=600+Teknologi+(ilmu+terapan)&rft.subject=620+Ilmu+teknik+dan+ilmu+yang+berkaitan&rft.description=Perairan+Indonesia+yang+luas+membuat+sumber+daya+perairan+di+laut+Indonesia%0D%0Asangat+melimpah.+Salah+satu+jenis+sumber+daya+di+Laut+Indonesia+yang+mempunyai%0D%0Anilai+jual+tinggi+adalah+udang+(vannamei).+Salah+satu+cara+untuk+memanfaatkan%0D%0Asumber+daya+udang+yang+ada+di+Indonesia+adalah+dengan+melakukan+budidaya+pada%0D%0Atambak+berbasis+teknologi.+Budidaya+tambak+udang+harus+memperhatikan+nilai%0D%0Aparameter+kualitas+air+tambak+udang.+Hal+tersebut+akan+mempengaruhi%0D%0Aperkembangbiakan+udang.+Parameter+optimal+yang+digunakan+dalam+mendukung%0D%0Aperkembangbiakan+udang+adalah+nilai+suhu+26-32+%C2%B0C%2C+salinitas+30-35+ppt%2C+pH+7%2C6-%0D%0A8%2C3%2C+nilai+kekeruhan+11-24+NTU%2C+dan+kadar+oksigen+%3E4+Mg%2FL.+Penelitian+ini%0D%0Abertujuan+untuk+mengintegrasikan+sensor-sensor+dengan+penanganan+pemantau%0D%0Akualitas+air+tambak+udang+berbasis+Internet+of+Things+(IoT)+yang+dapat+dipantau%0D%0Asecara+real-time+pada+tambak+udang.+Parameter+kualitas+air+tambak+udang+tersebut%0D%0Adipantau+menggunakan+sensor-sensor+yang+sudah+terkalibrasi+menggunakan+alat%0D%0Aukur+konvensional+untuk+mengetahui+tingkat+galat+dan+akurasi+dari+alat+pemantau%0D%0Atersebut.+Berdasarkan+penelitian%2C+telah+terealisasi+alat+pemantau+kualitas+air+tambak%0D%0Audang+dengan+Mappi32+dan+didapatkan+nilai+galat+yang+terbaca+pada+sensor-sensor%0D%0Adari+proses+pengujian+yaitu+sensor+TDS+5%2C39%25%2C+sensor+suhu+0%2C14+%25%2C+sensor+pH+2%2C85%0D%0A%25%2C+sensor+turbidity+5%2C14%25%2C+dan+sensor+DO+8%2C84+%25.+Selain+itu%2C+telah+terealisasi%0D%0Apemantauan+kualitas+air+tambak+udang+secara+real-time+yang+dapat+terpantau%0D%0Amelalui+dashboard+Node-Red+yang+menggunakan+protokol+IoT+Message+Queuing%0D%0ATelemetry+Transport+(MQTT)+dengan+nilai+rata-rata+latency+sebesar+593%2C3+ms.+Data%0D%0Ahasil+pengujian+sistem+secara+keseluruhan+yang+dilakukan+selama+10+hari+setiap+pagi%0D%0Ahari%2C+siang+hari%2C+dan+malam+hari+mendapatkan+nilai+galat+sebesar+6%2C66%25+dan+akurasi%0D%0A93%2C34%25.%0D%0AKata+Kunci%3A+Pemantau%2C+Tambak+Udang%2C+Mappi32%2C+Internet+of+Things+(IoT)%2C%0D%0AMessage+Queuing+Telemetry+Transport+(MQTT).%0D%0A%0D%0AThe+vast+waters+of+Indonesia+lead+to+abundant+marine+resources%2C+with+shrimp%0D%0A(vannamei)+being+a+high-value+resource+in+these+waters.+One+method+to+utilize%0D%0Athese+shrimp+resources+is+through+technology-based+pond+cultivation.+Effective%0D%0Ashrimp+pond+cultivation+requires+monitoring+water+quality+parameters%2C+as+these%0D%0Afactors+influence+shrimp+development.+Optimal+parameters+for+supporting+shrimp%0D%0Acultivation+include+a+temperature+range+of+26-32+%C2%B0C%2C+salinity+of+30-35+ppt%2C+pH+of%0D%0A7.6-8.3%2C+turbidity+of+11-24+NTU%2C+and+oxygen+levels+above+4+mg%2FL.+This+study+aims%0D%0Ato+integrate+sensors+into+an+Internet+of+Things+(IoT)+based+water+quality%0D%0Amonitoring+system+for+real-time+observation+of+shrimp+ponds.+The+water+quality%0D%0Aparameters+are+monitored+using+sensors+calibrated+with+conventional%0D%0Ameasurement+tools+to+assess+their+error+rates+and+accuracy.+The+research%0D%0Asuccessfully+implemented+a+water+quality+monitoring+system+for+shrimp+ponds%0D%0Ausing+Mappi32%2C+with+sensor+error+rates+recorded+as+follows+TDS+sensor+at+5.39%25%2C%0D%0Atemperature+sensor+at+0.14%25%2C+pH+sensor+at+2.85%25%2C+turbidity+sensor+at+5.14%25%2C+and%0D%0ADO+sensor+at+8.84%25.+Real-time+monitoring+has+also+been+achieved+through+a%0D%0ANode-Red+dashboard+using+the+IoT+protocol+Message+Queuing+Telemetry%0D%0ATransport+(MQTT)%2C+with+an+average+latency+of+593.3+ms.+The+overall+system%0D%0Atesting+conducted+over+10+days%2C+including+measurements+taken+in+the+morning%2C%0D%0Aafternoon%2C+and+evening%2C+resulted+in+an+error+rate+of+6.66%25+and+an+accuracy+of%0D%0A93.34%25.%0D%0AKeywords%3A+Monitoring%2C+Shrimp+Pond%2C+Mappi32%2C+Internet+of+Things+(IoT)%2C%0D%0AMessage+Queuing+Telemetry+Transport+(MQTT).&rft.publisher=FAKULTAS+TEKNIK&rft.date=2024-07-23&rft.type=Skripsi&rft.type=NonPeerReviewed&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F88580%2F1%2FAbstrak%2520-%2520Bagus%2520Hendrawan.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F88580%2F2%2FSkripsi%2520Full%2520-%2520Bagus%2520Hendrawan.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F88580%2F3%2FSkripsi%2520Full%2520Tanpa%2520Pembahasan%2520-%2520Bagus%2520Hendrawan.pdf&rft.identifier=++BAGUS%2C+HENDRAWAN++(2024)+RANCANG+BANGUN+SISTEM+PEMANTAU+KUALITAS+AIR+TAMBAK+UDANG+MENGGUNAKAN+MAPPI32+BERBASIS+INTERNET+OF+THINGS.++FAKULTAS+TEKNIK%2C+UNIVERSITAS+LAMPUNG.+++++&rft.relation=http%3A%2F%2Fdigilib.unila.ac.id%2F88580%2F