
Gujarati: 
આઈઓટીની વિવિધ ખ્યાલોમાંથી
પસાર થઈને, નેટવર્કિંગ
ખ્યાલો, કોમ્યુનિકેશન
કન્સેપ્ટ્સ, કનેક્ટિવીટી
સ્થાપના ખ્યાલો,
અગાઉના લેક્ચરમાં
આઇઓટી પર પ્રાયોગિક
હેતુઓ અમે હવે આઇઓટીનો

Telugu: 
ఐయోటి యొక్క విభిన్న
భావనలను, ప్రాథమిక
భావనలను నెట్వర్కింగ్
భావనలను, కమ్యూనికేషన్
భావనలను, కనెక్టివిటీ
ఎస్టాబ్లిష్మెంట్
కాన్సెప్ట్స్, ఆచరణాత్మక
చేతులు (practical hands) IOT లో
మునుపటి ఉపన్యాసంలో
మనము చూసాము , ఇప్పుడు
కేస్ స్టడీ ని చూద్దాము.
ఈ ప్రత్యేక కేసు
అధ్యయనం వ్యవసాయ

Bengali: 
আইওটি (IoT)-র বিভিন্ন
ধারণা (concept) পড়ার পর
, মৌলিক ধারণা (concept)
টি হলো নেটওয়ার্কিং
এর ধারণা (concept), যোগাযোগের
(communication) ধারণা (concept),
সংযোগ বিন্যাসের
(connectivity establishment) ধারণা
(concept)গুলি, পূর্ববর্তী
hবক্তৃতাতে আইওটি
(IoT)-র ব্যবহারিক হাত
আমরা এখন কিভাবে
আইওটি (IoT) ব্যবহার
করা হয়েছে আমরা
তার একটি কেস স্টাডিজের
(case study) মাধ্যমে এগিয়ে

English: 
having gone through the different concepts
of iot the basic concepts the networking concepts
the communication concepts the connectivity
establishment concepts the practical hands
on on iot in the previous lecture we will
now go through a case study of how iot has
been used and this particular case study is
on agricultural use so agricultural use of
iot more specifically on use of iot for smart
irrigation and this is basically based on

Malayalam: 
ഐഒടി (IoT) യുടെ വിവിധ
ആശയങ്ങളിലൂടെ കടന്നുപോയത്,
അടിസ്ഥാന ആശയങ്ങളായ
നെറ്റ്വർക്കിങ്
ആശയങ്ങൾ, ആശയവിനിമയ
ആശയങ്ങൾ, കണക്റ്റിവിറ്റി
സ്റ്റേജ്മെൻറ് ആശയങ്ങൾ,
മുമ്പത്തെ പ്രഭാഷണത്തിലെ
ഐ.ഒ.ടിയുടെ പ്രായോഗിക
കൈകൾ എന്നിവ ഇപ്പോൾ
നമ്മൾ എങ്ങനെയാണ്
ഉപയോഗിച്ചിരിക്കുന്നതെന്നതിനെക്കുറിച്ചുള്ള
ഒരു പഠനത്തിലൂടെ
കടന്നുപോകുന്നു.

Telugu: 
ఉపయోగంలో ఉంది, కాబట్టి
IOT యొక్క వ్యవసాయ
ఉపయోగానికి IOT ను
ప్రత్యేకంగా స్మార్ట్
నీటిపారుదల కొరకు
ప్రత్యేకంగా ఉపయోగిస్తున్నారు
మరియు ఇది ప్రాథమికంగా
నా సహోద్యోగి ప్రొఫెసర్
NS రఘువన్షితో పాటు
వ్యవసాయ మరియు ఆహార
శాఖ నుండి మా ఇన్స్టిట్యూట్
ఆఫ్ ఇనిస్టిట్యూట్
ఐఐటీ ఖరగ్పూర్ మరియు
ఇక్కడ నేను ఐఒటిటి
ని యేల ఉపయోగిస్తానో
మీకు చూపించబోతున్నాను.
కాబట్టి, ఈ పేరును
అభివృద్ధి చేస్తున్న
వ్యవస్థను అగ్రిసెన్స్
(AgriSenS) అనే ఒక స్మార్ట్
నీటిపారుదల నిర్వహణ
వ్యవస్థగా చెప్పవచ్చు.
AgriSens వ్యవస్థ మరియు
ఈ ప్రత్యేకమైన వ్యవస్థ
agrisys.iitkgp.ac.in URL ద్వారా
అగ్రి sys బహిరంగంగా
అందుబాటులో ఉంది.
కాబట్టి, ఈ ప్రత్యేకమైన

Gujarati: 
ઉપયોગ કેવી રીતે
કર્યો છે તેના કેસ
સ્ટડીમાંથી પસાર
થશે. અને આ ચોક્કસ
કેસનો અભ્યાસ કૃષિ
વપરાશ પર છે, તેથી
IoT ના કૃષિ ઉપયોગ વધુ
સ્પષ્ટ રીતે આઈઓટીના
ઉપયોગ માટે સ્માર્ટ
સિંચાઇ માટે અને
આ મૂળભૂત રીતે એક
પ્રોજેક્ટ પર આધારિત
છે જે મેં મારા સહયોગી
પ્રોફેસર એન.એસ. રઘુવંશી

English: 
a project that i have executed along with
my colleague professor n s raghuwanshi from
the department of agriculture and food engineering
of our institute iit kharagpur and here i
am going to show you how iot can come as an
help for as as help for ah building systems
that can make irrigation smarter
so it is a smart irrigation management system
the system that we have developed the name
is agrisens agrisens system and this is accessible
this particular system is accessible publicly
through the url agri sys a g r i s y s dot
iit kgp dot ac dot in so let us look at some
of these different aspects of this particular

Bengali: 
যাব। এবং এই বিশেষ
কেস স্টাডি (case study)
কৃষির (agriculture) ব্যবহারের
উপর, তাই আইওটি (IoT)
কৃষি ব্যবহার ((agriculture))
বিশেষ করে আইওটি
(IoT) ব্যবহারের জন্য
স্মার্ট সেচের (smart
irrigation) জন্য এবং এটি
মূলত একটি প্রকল্প
(project) যা আমাকে আমার
সহকর্মী (colleague)আমাদের
ইনস্টিটিউটের আইআইটি
খড়গপুর এর কৃষি
(agriculture)ও খাদ্য বিভাগ
প্রকৌশল(Agriculture and Food
Engineering) এর অধ্যাপক
এন.এস. রঘুবংশী (Professor
N S Raghuwanshi ) পরিচালনা
(execute) সাহায্য করবে
এবং এখানে আমি আপনাকে
দেখানোর চেষ্টা করছি
কিভাবে আইওটি (IoT) ব্যবস্থা
নির্মাণের জন্য সাহায্য

Malayalam: 
ഈ പ്രത്യേക പഠനപഠനം
കാർഷിക ഉപയോഗത്തിന്റേതാണ്,
അതിനാൽ ഐ.ഒ.ടി (IoT) യുടെ
കാർഷിക ഉപയോഗം സ്മാർട്ട്
ജലസേചനത്തിനായി
പ്രത്യേകമായി ഐ.ഒ.ടിയുടെ
ഉപയോഗത്തെ അടിസ്ഥാനമാക്കിയാണ്.
ഇത് അടിസ്ഥാനപരമായി
എന്റെ സഹപ്രവർത്തക
പ്രൊഫസർ എൻ.എസ്. രഘുവംശിയ്ക്കൊപ്പം
കൃഷി, ഭക്ഷണം നമ്മുടെ
ഇൻസ്റ്റിറ്റ്യൂട്ട്
ഐഐടി ഖരഗ്പൂരിലെ
എഞ്ചിനിയറിംഗ്, ഇവിടെ
ജലസേചന ശീതളമാക്കാൻ
കഴിയുന്ന നിർമ്മിതി
സംവിധാനങ്ങളുടെ
സഹായത്തിനായി ഐ.ഒ.ടിയെ
എങ്ങനെ സഹായിക്കുമെന്ന്
ഞാൻ കാണിച്ചുതരാം.
അതുകൊണ്ട്, ഞങ്ങൾ
സ്പ്രിംഗ് ജലസേചന
മാനേജ്മെന്റ് സംവിധാനമാണ്
അഗ്രിസെൻസ് എന്ന
പേര് വികസിപ്പിച്ചത്.

Malayalam: 
അഗ്രിസെൻസ് സിസ്റ്റവും
ഇത് ആക്സസ് ചെയ്യാവുന്നതുമാണ്
ഈ പ്രത്യേക സിസ്റ്റം
യുആർഎൽ അഗ്രീസ് sys
(URL agri sys) വഴി ലഭ്യമാകുന്നത്;
agrisys.iitkgp.ac.in.
അതുകൊണ്ട്, ഈ വ്യവസ്ഥിതിയുടെ
വ്യത്യസ്ത വശങ്ങളിൽ
ചിലവ നോക്കാം.
അതിനാൽ, ഞങ്ങൾ കൂടുതൽ
മുന്നോട്ടുപോകുന്നതിനു
മുൻപ് ഒരു പ്രത്യേക
സാങ്കൽപ്പിക രൂപം
നിങ്ങൾക്കു കാണിച്ചുതരാൻ
ഞാൻ ആഗ്രഹിക്കുന്നു.
അങ്ങനെ, കാർഷികമേഖലയിൽ
ഐ.ഒ.ടിയുടെ ഉപയോഗം
ഭാവിയിൽ സംഭവിക്കാൻ
പോകുന്നതെന്താണ്?
അതിനാൽ, നമുക്ക്
മുന്നിൽ കാണുന്ന
ചിത്രം ഒരു കാർഷിക
മണ്ഡലമാണ്, അത് ഓട്ടോമാറ്റിക്

Bengali: 
করতে পারে যা সেচকে
(irrigation) আরও দক্ষ করতে
পারে। সুতরাং, এটি
একটি স্মার্ট সেচ
(smart irrigation) ব্যবস্থাপনা
(management) যার নাম আমরা
দিয়েছি এগ্রিসেন
( AgriSens)। এগ্রিসেন (AgriSens)
সিস্টেম এবং অ্যাক্সেসযোগ্য
(accessible) এই সিস্টেমটি
ইউআরএল (URL) এগ্রিসিস
(AGRISYS) মাধ্যমে সর্বজনীনভাবে
(publicly) প্রবেশযোগ্য;
এগ্রিসিস ডট আই আই
টি কে জি পি ডট এ সি
ডট ইন (agrisys.iitkgp.ac.in.) ।
সুতরাং, আসুন আমরা
এই নির্দিষ্ট সিস্টেমের
এই বিভিন্ন দিকগুলির
(different aspects) কিছু দেখি।

Gujarati: 
સાથે કૃષિ અને ખાદ્ય
વિભાગના ડિરેક્ટર
અમારા સંસ્થા આઇઆઇટી
ખડગપુરની એન્જીનિયરિંગ
અને અહીં હું તમને
બતાવીશ કે આઇઓટી
કેવી રીતે મદદ કરી
શકે છે જેમ કે સિસ્ટમો
બનાવવા માટે મદદ
કે જે સિંચાઈને સ્માર્ટ

English: 
system so before we go further i would like
to show you a hypothetical scenario through
this particular figure so what is going to
happen the use of iot in agriculture what
is going to happen in the future so the picture
that we see in front of us is an agricultural
field a hypothetical one where there are different
types of sensors that are planted sensor such
as for soil moisture and water level monitoring
for automated irrigation performance performing
automated irrigation
automated recycling of organic waste vermicomposting
automated sowing and weeding and so and so
forth so many different things automated systems
fitted with sensors fitted with different
actuators these are going to be used for making

Telugu: 
సిస్టమ్ యొక్క ఈ
విభిన్న అంశాలలో
కొన్నింటిని చూద్దాము.
కాబట్టి, మనము ముందుకు
వెళ్ళేముందు ఈ ప్రత్యేక
అంశం ద్వారా ఒక ఊహాత్మక
దృష్టాంతిని మనము
చూద్దాము . కాబట్టి,
భవిష్యత్తులో ఐఒఎటి
ఉపయోగించడంవలన వ్యవసాయ
రంగంలో ఏం జరుగుతుంది?
కాబట్టి, మనము ముందు
చూసే వ్యవసాయ క్షేత్రం
చిత్రాన్ని ఒక ఊహాత్మకమైనది,
అక్కడ ఆటోమేటెడ్
నీటిపారుదల పనితీరు
కోసం మట్టి, తేమ మరియు
నీటి స్థాయి పర్యవేక్షణ,
నాటడానికి వివిధ
రకాలైన సెన్సార్లు
ఉన్నాయి.
సేంద్రీయ వ్యర్ధ
పదార్ధాల ఆటోమేటెడ్
రీసైక్లింగ్, ఆటోమేటెడ్
విత్తులు నాటే మరియు
కలుపు తీయుట మరియు
తద్వారా మొదలగునవి,
అనేక విభిన్న విషయాలు
ఆటోమేటేడ్ సిస్టమ్స్తో
అమర్చబడిన సెన్సార్లతో
అమర్చబడినవి, వీటిని
వ్యవసాయం సరికొత్తగా
చేయడానికి ఉపయోగిస్తారు.

Telugu: 
కాబట్టి, అగ్రిసెన్స్
వ్యవస్థలో ఈ ప్రత్యేకమైన
ప్రాజెక్ట్లో మేము
ఐఓటి స్మార్ట్ వాటర్
మేనేజ్మెంట్ను ఉపయోగించి
నీటి నిర్వహణపై దృష్టి
సారించాము.
కాబట్టి, మనమేమి
చేయాలి?
కాబట్టి, ఈ స్మార్ట్
వాటర్ మేనేజ్మెంట్
సిస్టమ్ (smart water management)
యొక్క లక్ష్యాలు
అగ్రిసేన్స్ వ్యవస్థ
పంట ఉత్పాదకత పరంగా
మరింత దిగుబడిని
పొందటానికి ఎంత తక్కువ
నీటిని వాడవచ్చు
అనే విషయాల పైన ఆధారపడి
ఉన్నది.కాబట్టి,
బియ్యం వంటి మొక్కల
కోసం ఏమి జరుగుతుంది;
వరి ,గోధుమ మొక్కల
మరియు మొదలైనవి.
ఇవి ప్రధానంగా మట్టి
,నేల తేమపై నీటి స్థాయి
మీద ఆధారపడి ఉంటాయి
మరియు అనేక ఇతర వాతావరణ
కారకాలు ఉంటాయి.

Bengali: 
সুতরাং, আমরা এগিয়ে
যাওয়ার আগে আমি
এই বিশেষ চিত্রের
মাধ্যমে আপনি একটি
প্রকল্পিত দৃশ্যকল্প
(hypothetical scenario) প্রদর্শন
করতে চাই। তাই, ভবিষ্যতে
কি ঘটতে যাচ্ছে তা
কৃষি ক্ষেত্র (field)
তে (agriculture) আইওটি (IoT)
ব্যবহারের কী ঘটতে
যাচ্ছে? তাই, আমাদের
সামনে যে ছবিটি আমরা
দেখি তা হল একটি কৃষি
(agriculture)ক্ষেত্র ( field)
একটি প্রকল্পিত এক
যেখানে অন্য ধরনের
সেন্সর (sensor)লাগানো
হয় যা স্বয়ংক্রিয়
(automated)ভাবে সেচ সঞ্চয়ের
(automated irrigation) জন্য মাটি,
আর্দ্রতা (moisture) এবং

Gujarati: 
બનાવી શકે છે. તેથી,
તે એક સ્માર્ટ સિંચાઈ
વ્યવસ્થાપન સિસ્ટમ
છે જેનું નામ અમે
વિકસાવ્યું છે તે
એગ્રીસન્સ છે.
AgriSens સિસ્ટમ અને આ
સુલભ છે આ ચોક્કસ
સિસ્ટમ URL કૃષિ સિસ્ટમ
દ્વારા જાહેરમાં
સુલભ છે; agrisys.iitkgp.ac.in.
તો, ચાલો આપણે આ ચોક્કસ
સિસ્ટમના કેટલાક

English: 
agriculture smarter so we in this particular
project in the agrisens ah ah system we have
developed the system with a focus on water
management using iot smart water management
so how do we do it so the objectives of this
smart water management system the agrisens
system are that how less water can be used
for getting more yield in in terms of crop
productivity that means and typically you
know so what happens is for plants such as
rice that means paddy plants wheat and so
on these basically are dependent on the soil
moisture the water level in the soil and so
on and so forth and many other climatic factors

Malayalam: 
ഇറിഗേഷൻ പ്രകടനത്തിന്റെ
ഓട്ടോമേറ്റഡ് ജലസേചനശേഷിക്ക്
മണ്ണ്, ഈർപ്പവും
ജലനിരപ്പ് നിരീക്ഷണവും
പോലുള്ള സെൻസറുകളെ
വ്യത്യസ്തമായ സെൻസറുകളായാണ്.
ഓട്ടോമാറ്റിക് ഉൽപാദനശേഷി,
വിത്തുപാകി, കളനിയെ
മുതലായവയുടെ യാന്ത്രിക
പുനരുൽപ്പാദനം, അനേകം
വ്യത്യസ്ത കാര്യങ്ങളിലുള്ള
ഓട്ടോമേറ്റഡ് സംവിധാനങ്ങൾ,
ഇവ വ്യത്യസ്ത കൃത്രിമ
ഉപകരണങ്ങളുമായി
യോജിപ്പിച്ച്, കൃഷിവികസൗഹാർദ്ദം
ഉണ്ടാക്കാൻ ഉപയോഗിക്കും.
അഗ്രിസെൻസ് സിസ്റ്റത്തിലെ
ഈ പ്രത്യേക പദ്ധതിയിൽ
ഐ.ഒ.ടി. സ്മാർട്ട്
വാട്ടർ മാനേജ്മെൻറ്
ഉപയോഗിച്ച് ജല മാനേജ്മെൻറിൽ
ശ്രദ്ധ കേന്ദ്രീകരിച്ചാണ്
ഞങ്ങൾ ഈ സംവിധാനം
വികസിപ്പിച്ചിരിക്കുന്നത്.
അത് എങ്ങനെ ചെയ്യണം?

Telugu: 
కాబట్టి, మొత్తం
లక్ష్యం ఏమిటంటే
మట్టి యొక్క తేమ
ఎంత అనేదాన్ని పరిశీలిస్తుంది.
నీటి స్థాయి ఎంత
ముఖ్యంగా వరి పంటలకు
వరి మొక్కలకు ఉపయోగకరమైన
అనే సమాచారం.
కాబట్టి, ఇది ఒక నిర్దిష్ట
స్థాయికి దిగువన
నేల డ్రైయర్గా (dryer)
మారితే ఈ ప్రత్యేక
విషయాన్ని ఎలా ఆటోమేట్
చేయాలి.
కాబట్టి, ఆటోమేటెడ్
నీటిపారుదలను ఈ వివిధ
సెన్సార్ల సహాయంతో
మనము ఎలా చేస్తాయి.
ఈ మట్టి తేమ సెన్సార్ల
ద్వారా నీటిలో ఉన్న
సెన్సార్ల ద్వారా
గ్రహించిన వివిధ
సమాచారం ఆధారంగా
మనము అందుకున్న డేటా
ఆధారంగా కొన్ని విశ్లేషణలను
నేర్చుకుంటాము, ఆపై
వ్యవస్థ నీటి మట్టం
తగ్గిందని లేదా నేల

Malayalam: 
അതിനാൽ, ഈ സ്മാർട്ട്
ജല മാനേജ്മെന്റ്
സംവിധാനത്തിന്റെ
ലക്ഷ്യങ്ങൾ അഗ്രിസെൻസ്
സമ്പ്രദായമാണ്, വിള
ഉൽപാദനക്ഷമതയിൽ
കൂടുതൽ വിളവ് ലഭിക്കുന്നതിന്
എത്രമാത്രം വെള്ളം
ഉപയോഗിക്കാമെന്നതാണ്.
അതായത് നിങ്ങൾ സാധാരണയായി
അറിയാം.
അരി പോലെയുള്ള ചെടികൾക്ക്
എന്തു സംഭവിക്കും?
അതായത് നെല്ല് സസ്യങ്ങൾ
ഗോതമ്പ് എന്നാണ്.
ഈ അടിസ്ഥാനപരമായി
മണ്ണിലെ ജലത്തിന്റെ
അളവ് മണ്ണിൽ ഈർപ്പം
ആശ്രയിക്കുന്നതാണ്,
അങ്ങനെ പലപ്പോഴും
മറ്റു കാലാവസ്ഥാ
ഘടകങ്ങൾ.
മണ്ണിന്റെ ഈർപ്പം
എത്രമാത്രം മണ്ണിന്റെ
അളവ് എത്രമാത്രം
മണ്ണ് ഉയർത്താൻ കഴിയും
എന്നതിന്റെ അടിസ്ഥാനത്തിലാണ്
നെൽപ്പാടത്തിന്റെ

Bengali: 
জলের স্তরের (water level)পর্যবেক্ষণের
মতো। স্বয়ংক্রিয়
(automated) বর্জ্য বীজতন্ত্রের
স্বয়ংক্রিয় (automated)
পুনর্ব্যবহারযোগ্য
বীজ বপন এবং আগাছা,
ইত্যাদি ইত্যাদি
ইত্যাদি ইত্যাদি
বিভিন্ন ধরনের স্বয়ংক্রিয়
(automated) ব্যবস্থাগুলি
বিভিন্ন কার্যকরী
সেন্সর (sensor)গুলির
সাথে লাগানো স্বয়ংক্রিয়
(automated) ব্যবস্থাগুলি
এইগুলি কৃষককে স্মার্ট
করার জন্য ব্যবহার
করা হচ্ছে। সুতরাং,
আমরা এই বিশেষ প্রকল্পে
এগ্রিসেন (AgriSens) সিস্টেমের
মধ্যে আমরা আইওটি
(IoT) স্মার্ট জল ব্যবস্থাপনা
(smart water management) ব্যবহার
করে জল ব্যবস্থাপনার
উপর ফোকাস (focus)করে

Gujarati: 
વિવિધ પાસાઓ જોઈએ.
તેથી, આપણે આગળ વધતાં
પહેલાં આ ચોક્કસ
આંકડા દ્વારા તમને
એક કાલ્પનિક સ્થિતિ
બતાવવા માંગીએ છીએ.
તો કૃષિમાં આઇઓટીનો
ઉપયોગ ભવિષ્યમાં
શું થવાનું છે?
તેથી, આપણી સામે જે
ચિત્ર દેખાય છે તે
કૃષિક્ષેત્ર એ એક
અનુમાનિત એક છે જ્યાં
વિવિધ પ્રકારના સેન્સર
હોય છે, જે સ્વયંચાલિત
સિંચાઇને આધારે સ્વયંચાલિત
સિંચાઈના પ્રદર્શન
માટે માટી, ભેજ અને
જળ સ્તરના નિરીક્ષણ

English: 
so the whole objective is that how can we
monitor the soil conditions how much is the
moisture content of the soil how much is the
the water level the stagnant water level particularly
that is useful information for paddy crops
paddy plants and how we can automate the irrigation
process whenever the soil becomes dryer so
if it becomes dryer below a certain threshold
level how to automate this particular thing
so automated irrigation how do we perform
with the help of this these different sensors
so what we do is that based on these different
sensed information through the soil moisture
sensors water level sensors from the field
we learn certain analytics based on the data
that is received and then if the if if it

Gujarati: 
માટે સેન્સર વાવે
છે. સ્વયંસંચાલિત
રિસાયક્લિંગ ઓર્ગેનિક
કચરાના વર્મીકમ્પોસ્ટિંગ
સ્વયંચાલિત વાવણી
અને નિંદા અને તેથી
આગળ અને આગળ, ઘણા એક્ટિવર્સથી
સજ્જ સેન્સરથી ફીટ
થયેલી ઘણી બધી વસ્તુઓ
સ્વયંસંચાલિત પ્રણાલીઓ
છે જેનો ઉપયોગ કૃષિને
વધુ સ્માર્ટ બનાવવા
માટે કરવામાં આવશે.
તેથી, અમે આ ઍગ્રિસેન્સ
સિસ્ટમમાં આ પ્રોજેક્ટમાં
આઇઓટી સ્માર્ટ વોટર
મેનેજમેન્ટનો ઉપયોગ
કરીને જળ વ્યવસ્થાપન

Bengali: 
সিস্টেম উন্নত করেছেন।
সুতরাং আমরা এটা
কিভাবে করব?
সুতরাং, এই স্মার্ট
জল ব্যবস্থাপনা (smart
water management)সিস্টেমের
লক্ষ্যগুলি কৃষি
(agriculture)এজেন্সি যাতে
ফসলের উৎপাদনশীলতার
(crop productivity) পরিপ্রেক্ষিতে
অধিক ফলন পাওয়ার
জন্য কম জল ব্যবহার
করা যায়; যার মানে,
সাধারণত আপনি জানেন।
সুতরাং, যেমন গাছপালা
জন্য ধান (peddy) এর (rice)
জন্য ; যার মানে, ধান
(peddy) গাছ (paddy plants) গম (wheat)এবং
আরো কিছু এটি মূলত
মাটির আর্দ্রতার
(soil moisture) উপর নির্ভর
করে মাটি জলের স্তর

Malayalam: 
ജലനിരപ്പ് എത്രമാത്രം
നിശ്ചലമാണ്, അത്
പ്രത്യേകിച്ച് നെൽവിളകളുടെ
നെൽവയലുകള്ക്ക്
ഉപയോഗപ്രദമായ വിവരങ്ങള്,
നമുക്ക് ജലസേചനം
ചെയ്യാന് എങ്ങനെ
കഴിയും എന്നതാണ്.
മണ്ണ് ഉണക്കുമ്പോഴെല്ലാം
പ്രക്രിയ നടത്തുക.
അങ്ങനെ, ഈ പ്രത്യേക
കാര്യം ഓട്ടോമേറ്റ്
ചെയ്യുന്നത് എങ്ങനെയാണ്
ഒരു നിശ്ചിത പരിധിക്ക്
താഴെയായി ഉണക്കുക.
അതുകൊണ്ട്, ഈ വ്യത്യസ്ത
സെൻസറുകളുടെ സഹായത്തോടെ
നമ്മൾ എങ്ങനെ ഓട്ടോമാറ്റിക്കായി
ജലസേചനം നടത്താറുണ്ട്.
അതിനാൽ, നമ്മൾ ചെയ്യുന്ന
മണ്ണിൽ ഈർപ്പം സെൻസറുകളിലൂടെയുള്ള
ഈ വ്യത്യസ്തമായ വിവരങ്ങൾ
അടിസ്ഥാനമാക്കിയുള്ള
വിവരങ്ങളെ അടിസ്ഥാനമാക്കിയുള്ള
വിശകലനങ്ങളിൽ നിന്ന്

English: 
is found out by the system autonomously by
the system without any human interference
if it is found out by the system that the
water level has gone down or the soil moisture
level has gone down or those are all climatic
conditions are no longer prevailing then to
take some actions the actions can be in terms
of sending some control signal for example
switching the pump on to irrigate the field
and so on and so forth and there can be done
remotely as well as well as autonomously automatedly
so this is what the agrisens system does so
this is the proposed architecture of the agrisens
system for offering smart water management
so we have different layers of the system
so we have the sensing layer the remote processing
layer and the application layer the sensing
layer basically has different types of sensors

Telugu: 
తేమ స్థాయి పడిపోయినా
లేదా వాటికి అన్ని
వాతావరణ పరిస్థితులు
ప్రబలంగా లేవని స్వతంత్రంగా
కనుగొన్నట్లయితే
సిస్టమ్ ద్వారా కనుగొనబడినట్లయితే,
ఏదైనా మానవ జోక్యం
లేకుండా వ్యవస్థను
కలిగి ఉంటుంది.
కొన్ని చర్యలు తీసుకోవటానికి,
ఉదాహరణకు కొన్ని
నియంత్రణ సంకేతాలను
(control signal) పంపుతుంది
మరియు మైదానమును
సాగుచేయతాము లాంటివి
సుదూరంగా అలాగే స్వతంత్రంగా,
స్వయంచాలకంగా చేయగలవు.
కాబట్టి, ఈ AgriSens వ్యవస్థ
ఏమిటి.
కాబట్టి, ఈ స్మార్ట్
వాటర్ మేనేజ్మెంట్
అందించడానికి AgriSens
వ్యవస్థ యొక్క ప్రతిపాదిత
నిర్మాణం (proposed architecture).
కాబట్టి , మనము సిస్టమ్
యొక్క వేర్వేరు పొరలను
కలిగి ఉన్నాము రిమోట్
ప్రాసెసింగ్ పొర

Gujarati: 
પર ધ્યાન કેન્દ્રિત
કર્યું છે. તો, આપણે
તે કેવી રીતે કરી
શકીએ?
તેથી, આ સ્માર્ટ વોટર
મેનેજમેન્ટ સિસ્ટમના
હેતુઓ એગ્રીસન્સ
સિસ્ટમ એ છે કે પાકની
ઉત્પાદકતાના સંદર્ભમાં
વધુ ઉપજ મેળવવા માટે
પાણીનો કેટલો ઉપયોગ
કરી શકાય છે; તેનો
અર્થ, અને સામાન્ય
રીતે તમે જાણો છો
તેથી, ચોખા જેવા છોડ
માટે શું થાય છે; તેનો
અર્થ, ડાંગરના છોડની
ઘઉં અને તેથી વધુ.

Bengali: 
(water level) এবং আরো অনেক
অন্যান্য জলবায়ু
কারণ (climatic factors) । তাই,
সমগ্র উদ্দেশ্য হল
আমরা কীভাবে মৃত্তিকার
অবস্থার (soil conditions) উপর
নজর রাখতে পারি যে,
মাটির আর্দ্রতা (moisture)
কতটা জলের স্তর (water
level) স্থায়ী জলের
স্তর (water level )যা বিশেষ
করে ধান (peddy) ফসলের
(paddy crops) ধান (peddy) উদ্ভিদের
জন্য দরকারী তথ্য
(data )এবং কীভাবে আমরা
সেচ (( irrigation)) স্বয়ংক্রিয়
(automated) প্রক্রিয়া
করতে পারি যখনই মাটি
ড্রায়ার করা হয়
। সুতরাং, এটি একটি
নির্দিষ্ট থ্রেশহোল্ড
স্তরের (threshold level ) নিচে

Malayalam: 
ഫീൽഡിൽ നിന്നും ജലനിരപ്പ്
സെൻസറുകൾ ഞങ്ങൾ പഠിക്കുന്നു,
തുടർന്ന് സിസ്റ്റം
സ്വമേധയാ അതിൽ നിന്ന്
കണ്ടെത്തിയാൽ ജലനിരപ്പ്
കുറഞ്ഞുപോയതോ അല്ലെങ്കിൽ
മണ്ണിൽ ഈർപ്പവുമുണ്ടാകുകയോ
അല്ലെങ്കിൽ അന്തരീക്ഷം
എല്ലാ കാലാവസ്ഥാ
നിലവാരവും നിലനിൽക്കുകയോ
ചെയ്യില്ലെന്ന വ്യവസ്ഥയിൽ
ഏതെങ്കിലും മനുഷ്യന്റെ
ഇടപെടലുകളില്ലാത്ത
ഒരു സിസ്റ്റം.
അപ്പോൾ ചില നടപടികൾ
കൈക്കൊള്ളാൻ, ചില
നിയന്ത്രണങ്ങൾ സിഗ്നൽ
അയയ്ക്കുന്നത് ഉദാഹരണം,
ഫീൽഡ് ജലസേചനം ചെയ്യാൻ
അങ്ങനെ പമ്പിലേക്ക്
മാറുന്നത്, അങ്ങനെ
വിദൂരവും സ്വമേധയാ
സ്വയം സ്വപ്രേരിതമായി
പ്രവർത്തിക്കാനും
കഴിയും.
അതുപോലെ തന്നെ, അഗ്രിസെൻസ്
സിസ്റ്റം ഇതാണ്.

Telugu: 
(processing layer) మరియు సెన్సింగ్
పొరను (sensing layer) కలిగి
ఉన్నాము.
వీటిలో సెన్సింగ్
పొర ప్రధానంగా వివిధ
రకాలైన సెన్సార్ల
ను కలిగి ఉంటుంది.
దానిలో నేల, తేమ, నీటి
స్థాయి మొదలైనవి
ఉన్నాయి, ఇది వివిధ
సమూహాల నుండి డేటా
వాటి క్లస్టర్ హెడ్
ద్వారా రిమోట్ ప్రాసెసింగ్
సర్వర్ (remote processing server)
మరియు వివిధ విశ్లేషణలకు
మరియు అమలు చేయడానికి
ఉపయోగపడుతుంది మరియు
ఆ డేటా అప్లికేషన్
పొర లో వివిధ అప్లికేషన్ల
కు అందుబాటులో ఉన్నాయి.
కాబట్టి, ఈ నిర్దిష్ట
ప్రాజెక్ట్ సెన్సార్ల
రూపకల్పన, సెన్సార్
నోడ్ రూపకల్పన మరియు
రిమోట్ సర్వర్ రూపకల్పన
మరియు కమ్యూనికేషన్
ఫ్రేమ్ రూపకల్పన
వంటి విభిన్న లక్ష్యాలను

English: 
soil moisture water level etcetera which through
data from different clusters this through
data through their cluster heads to the remote
processing server and different analytics
and run and those data are made made available
to the different applications in the application
layer
so this particular project involved different
objectives such as the design for the sensors
designing the sensor node as such and the
design of the remote server and the communication
framework so as part of this project what
we did is we developed a sensor that can be
used for monitoring the water level in the
field so this is this particular sensor which
we have developed in our lab for monitoring

Bengali: 
ড্রায়ার হয়ে যায়
তাহলে এই বিশেষ জিনিস
কিভাবে স্বয়ংক্রিয়
(automated) । সুতরাং, স্বয়ংক্রিয়
(automated )ভাবে সেচ কিভাবে
আমরা এই বিভিন্ন
সেন্সর (sensor) এর সাহায্যে
সঞ্চালন করা তাই,
আমরা যা করি তা হল
মাটির আর্দ্রতা (moisture)সেন্সর
(sensor) এর মাধ্যমে এই
বিভিন্ন সংবেদনশীল
তথ্যের ওপর ভিত্তি
করে জল স্তর সেন্সর
(sensor) ক্ষেত্র ( field) থেকে
পাওয়া যায় আমরা
প্রাপ্ত তথ্যগুলির
উপর ভিত্তি করে কিছু
বিশ্লেষণ (analytics) শিখি
এবং তারপর যদি এই
সিস্টেম স্বায়ত্তশাসন
(system autonomously) দ্বারা পাওয়া
যায় তবে কোনও মানুষের
হস্তক্ষেপ ছাড়াই

Telugu: 
కలిగి ఉంది. కాబట్టి,
ఈ ప్రాజెక్ట్ యొక్క
భాగంగా మనము ఏమి
చేసాము అనగా మనము
ఒక సెన్సర్ను అభివృద్ధి
చేసాము, ఇది ఫీల్డ్
లో నీటి స్థాయిని
పర్యవేక్షించడానికి
ఉపయోగించబడుతుంది.
కాబట్టి, ఈ ప్రదేశంలో
నీటి స్థాయి పర్యవేక్షణ
కోసం ఇది మా లాబ్లో
అభివృద్ధి చేసిన
ఈ ప్రత్యేక సెన్సార్.
కాబట్టి, మనము అభివృద్ధి
చేయని మరొక సెన్సర్,
కానీ మనము ఈ EC05 మట్టి
తేమ సెన్సార్ను కలిగి
ఉన్నాము , ఇది భూమి
యొక్క ఉపరితలం లోపల
ఉంటుంది , మట్టి తేమ
సెన్సార్ ప్రధానంగా
మట్టి స్థాయి లోపల
ఇన్స్టాల్(install) అయ్యి
ఉంటుంది .
కాబట్టి, ఇది సెన్సార్

Gujarati: 
આ મૂળ જમીનની ભેજ
પર આધાર રાખે છે, જમીનમાં
પાણીનું સ્તર અને
તેથી આગળ અને આગળ
અને ઘણા અન્ય આબોહવાની
પરિબળો.
તેથી, સમગ્ર ઉદ્દેશ
એ છે કે આપણે કેવી
રીતે માટીની પરિસ્થિતિઓ
પર દેખરેખ રાખી શકીએ
છીએ કે જમીનની ભેજની
સામગ્રી કેટલી છે,
પાણીનું સ્તર સ્થિર
જળ સ્તર, ખાસ કરીને
જે ડાંગરના પાકના
ડાંગરના છોડ માટે

English: 
the water level in the field so another sensor
which we did not develop but we have procure
is the ec zero five soil moisture sensor which
in this particular figure as you can see in
this particular picture as you can see has
been put ah it has been you know dug inside
the surface of the earth
so soil moisture sensor is basically put inside
is installed inside the ah the level the level
of ah the mud level of mud or level of earth
so it is inside it is dug inside so this is
the overall design of the sensor node so here
basically what we have is apart from the sensors
and actuators we have a processing unit and

Malayalam: 
അതുകൊണ്ട്, സമഗ്ര
ജല പരിപാലനം വാഗ്ദാനം
ചെയ്യുന്ന അഗ്രിസെൻസ്
സിസ്റ്റത്തിന്റെ
നിർദ്ദിഷ്ട വാസ്തുവിദ്യയാണ്
ഇത്. അതിനാൽ, നമുക്ക്
സിസ്റ്റത്തിന്റെ
വ്യത്യസ്ത പാളികൾ
ഉണ്ട് അതിനാൽ നമുക്ക്
റിമോട്ട് പ്രോസസ്സിംഗ്
ലേയറിൻറെ സെൻസിങ്
ലെയർ, ആപ്ലിക്കേഷൻ
ലേയർ, സെൻസർ ലെയർ
എന്നിവ വ്യത്യസ്തമായി
വ്യത്യസ്ത തരം സെൻസറുകളുണ്ട്,
മണ്ണിൽ ഈർപ്പം ജലനിരപ്പ്
മുതലായവ വിവിധ ക്ലസ്റ്ററുകളിൽ
നിന്നുള്ള വിവരങ്ങളിലൂടെ
അവയുടെ ക്ലസ്റ്റർ
തലങ്ങളിലൂടെ വിദൂര
പ്രോസസ്സിംഗ് സെർവറിലേക്കും
വ്യത്യസ്ത അനലിറ്റിക്സുകളിലേക്കും
പ്രവർത്തിപ്പിക്കുകയും
ആ ഡാറ്റ ഡാറ്റാ ലെയറിലെ

Malayalam: 
വ്യത്യസ്ത അപ്ലിക്കേഷനുകൾക്ക്
ലഭ്യമാക്കുകയും
ചെയ്യുന്നു.
അതിനാൽ, ഈ പ്രത്യേക
പദ്ധതിയിൽ സെന്സറുകൾക്കുള്ള
ഡിസൈൻ, സെൻസർ നോഡ്
രൂപകൽപ്പന ചെയ്യൽ,
വിദൂര സെർവറിലെ രൂപകൽപ്പന,
ആശയവിനിമയ ചട്ടക്കൂട്
എന്നിവ പോലുള്ള വ്യത്യസ്ത
ലക്ഷ്യങ്ങളായിരുന്നു
അതിൽ ഉൾപ്പെട്ടിരുന്നത്.
അങ്ങനെ, ഈ പദ്ധതിയുടെ
ഭാഗമായി ഞങ്ങൾ എന്തു
ചെയ്തു, ഞങ്ങൾ വയലിൽ
ജലനിരപ്പ് നിരീക്ഷിക്കാൻ
ഉപയോഗിക്കാവുന്ന
ഒരു സെൻസറാണ് വികസിപ്പിച്ചത്.
നമ്മുടെ ലാബിൽ വികസിപ്പിച്ചെടുത്ത
പ്രത്യേക സെൻസറാണ്
വയലിൽ ജലനിരപ്പ്
നിരീക്ഷിക്കുന്നതിനായി.
അതിനാൽ, ഞങ്ങൾ വികസിപ്പിച്ചെടുത്ത
മറ്റൊരു സെൻസർ, പക്ഷെ

Bengali: 
সিস্টেমটি যদি পাওয়া
যায় তবে জল স্তর
নিচে নেমে গেছে বা
মাটির আর্দ্রতার
(moisture ) মাত্রা হ্রাস
পেয়েছে বা সেই সব
জলবায়ুগুলির (climate)
উপর আর বিদ্যমান
নয়। তারপর কিছু
পদক্ষেপ নিতে, কর্ম
যেমন উদাহরণস্বরূপ
কিছু নিয়ন্ত্রণ
সংকেত (control signal) পাঠানোর
পদ হতে পারে, ক্ষেত্র
(field) যাতে সেচ (irrigate)
করতে পাম্প (pump)(pump)
সুইচিং (swiching) এবং তাই
এবং তাই এবং দূরবর্তী
(remote)ভাবে পাশাপাশি
স্বায়ত্তশাসিতভাবে
(autonomously) স্বয়ংক্রিয়
(automated )ভাবে সম্পন্ন
করতে পারেন
সুতরাং, এগ্রিসেন
(AgriSens) সিস্টেমটি (system)
এটি । সুতরাং, এটি

Telugu: 
నోడ్ యొక్క మొత్తం
రూపకల్పన.
కాబట్టి, మనం ప్రాథమికంగా
సెన్సార్లు మరియు
యాక్యుయేటర్లు కాకుండా
ప్రాసెసింగ్ యూనిట్
మరియు మెమొరీ యూనిట్
కలిగి ఉన్నాము.
వైర్లెస్ కమ్యూనికేషన్
యూనిట్ మరియు పవర్
మేనేజ్మెంట్ యూనిట్ను
కలిగి ఉన్నాము.
కాబట్టి, ఇది ఒక సెన్సార్
నోడ్ యొక్క ఇంటిగ్రేట్
డిజైన్, ఇది ఈ ఒక నోడ్
మరియు మనము ఇక్కడ
చూడగలిగేది ప్రధానంగా
ఒక LCD మరియు జిగ్బీ(Zigbee)
కనెక్షన్ ను కలిగి
ఉంటుంది.
జిగ్బీ (Zigbee) టెక్నాలజీని
మనము మునుపటి ఉపన్యాసాలలో
ఒక కమ్యూనికేషన్
సాంకేతిక గా చూసాము.
ఈ సెన్సర్ నోడే వివిధ
విద్యుత్ సరఫరాలకు
కలిగి ఉంది, దీనిలో
ఒక శక్తి సూచిక (power

English: 
the memory unit ah we have wireless communication
unit and we have the power management unit
so this is the integrate design of a sensor
node that we have developed this is this one
node and ah this node basically as you can
see over here it comes with an lcd and it
is powered by zigbee for communication and
zigbee in one of the previous lectures on
connectivity technologies we have already
gone through zigbee then ah it also has a
power supply it has ah different power supplies
then it has a power on indicator a reset switch
the on off on off switch and different sensors
can be fitted to this particular core
so this is the the censor board that we have
designed and which can be used for agricultural

Gujarati: 
ઉપયોગી માહિતી છે
અને કેવી રીતે આપણે
સિંચાઈને સ્વચાલિત
કરી શકીએ છીએ પ્રક્રિયા
જ્યારે માટી સુકાય
બની જાય છે તેથી, જો
તે ચોક્કસ થ્રેશોલ્ડ
સ્તર નીચે સુકાં
બને છે, તો આ ચોક્કસ
વસ્તુને કેવી રીતે
આપમેળે કરવું.
તેથી, સ્વયંસંચાલિત
સિંચાઇ કેવી રીતે
અમે આ વિવિધ સેન્સરની
મદદથી કરી શકીએ છીએ
તેથી, આપણે શું કરીએ
છીએ તે જમીનની ભેજ

Gujarati: 
સંવેદકો દ્વારા પાણીના
સ્તરના સેન્સર દ્વારા
આ વિવિધ સેન્સેટેડ
માહિતીના આધારે આપણે
પ્રાપ્ત કરેલ ડેટાના
આધારે ચોક્કસ એનાલિટિક્સને
શીખીએ છીએ, અને પછી
જો તે સિસ્ટમ દ્વારા
સ્વાયત્ત રીતે મળી
આવે તો કોઈ પણ માનવીય
દખલગીરી વગરની સિસ્ટમ
જો તે સિસ્ટમ દ્વારા
મળી આવે કે પાણીનો
સ્તર ઘટ્યો છે અથવા
માટીના ભેજનું સ્તર
નીચે ગયું છે અથવા
તે તમામ આબોહવાની
સ્થિતિ પ્રવર્તમાન

Telugu: 
indicator) ఉంది, రీసెట్
స్విచ్, ఆఫ్ స్విచ్
మరియు వివిధ సెన్సార్లను
ఈ ప్రత్యేక కోర్కి
(core) అమర్చవచ్చు.
కాబట్టి, ఇది మనము
రూపొందించిన సెన్సార్
బోర్డ్ మరియు ఇది
వ్యవసాయ ప్రయోజనాల
కోసం సాగునీటి ప్రయోజనాల
కోసం ఉపయోగించవచ్చు.
అప్పుడు రిమోట్ సర్వర్
ప్రాథమికంగా ఐఓటి
గేట్వేస్ ద్వారా
ఈ ఐయోటి నోడ్స్ ద్వారా
వేర్వేరు సెన్సార్ల
నుండి మొత్తము డేటాను
పొందగల ఒక రిపోజిటరీను
కలిగి ఉంటుంది మరియు
రిమోట్గా క్షేత్ర
(field) డేటాలో నిల్వచేసే
ఒక వెబ్ సర్వర్ ఉంది;
అనగా, వెబ్ సర్వర్
సాధారణంగా క్షేత్రం
నుండి దూరంగా నిల్వ
చేయబడుతుంది మరియు
డేటా భవిష్యత్తులో
ఉపయోగం కోసం నిల్వ
చేయబడుతుంది.

Bengali: 
স্মার্ট জলের ব্যবস্থাপনার
(smart water management) জন্য অগ্রিসেন
সিস্টেম প্রস্তাবিত
(offering) স্থাপত্য (architecture)।
সুতরাং, আমাদের সিস্টেমে
বিভিন্ন স্তর এর
রয়েছে যাতে আমাদের
সেন্সিং স্তর (layer
)টি রিমোট প্রক্রিয়াকরণ
(processing) স্তর (layer) এবং
অ্যাপ্লিকেশন স্তর
(layer) থাকে যা সেন্সিং
স্তর (layer) মূলত বিভিন্ন
ধরনের সেন্সর (sensor)
মৃত্তিকা আর্দ্রতা
(soil moisture) জলের স্তর
(water layer) ইত্যাদি যা
বিভিন্ন ক্লাস্টারের
তথ্য (data)গুলির মাধ্যমে
তাদের ক্লাস্টারের
মাধ্যমে তথ্য (data)গুলির
মাধ্যমে দূরবর্তী
(remote) প্রক্রিয়াকরণ
(processing) সার্ভার এবং
বিভিন্ন বিশ্লেষণ
এবং চালানো এবং যারা

Malayalam: 
ഞങ്ങൾ ശേഖരിച്ചത്
ഈ ഇസി 05 മണ്ണ് ഈർപ്പം
സെൻസർ ആണ്, ഈ പ്രത്യേക
ചിത്രത്തിൽ നിങ്ങൾക്ക്
കാണാൻ കഴിയുന്നതുപോലെ
ഈ പ്രത്യേക ചിത്രത്തിൽ
കാണാൻ കഴിയും നിങ്ങൾ
ഭൂമിയുടെ ഉപരിതലത്തിൽ
കുഴിയറിഞ്ഞിട്ടുണ്ടെന്ന്
അറിയാമായിരുന്നു.
അതുകൊണ്ട്, മണ്ണ്
ഈർപ്പം സെൻസർ അടിസ്ഥാനപരമായി
പുട്ട് ഉപയോഗിച്ച്
മണ്ണ് അല്ലെങ്കിൽ
ഭൂമിയുടെ അളവ് മണ്ണിന്റെ
അളവ് തലത്തിൽ സ്ഥാപിക്കുകയാണ്.
അതിനപ്പുറം അതിനുള്ളിൽ
കുഴിച്ചിടുക.
അതുപോലെ, സെൻസർ നോഡിന്റെ
മൊത്തത്തിലുള്ള
രൂപകൽപ്പനയാണ് ഇത്.
അതിനാൽ, ഇവിടെ നാം
എന്താണ് സെന്സറുകളും
ആക്ടിവേറ്ററുമൊക്കെയാണെന്നത്

English: 
purposes smart irrigation purpose then the
remote server basically it has a repository
which can take all the data from these different
sensors these iot nodes through the iot gateways
and there is a web server ah which basically
stores in the field data remotely that means
the web server are typically stored ah away
from the field and that is where the data
are all stored for use in the future and there
are multi user servers which basically send
the field information to the farmers cell
using sms technology and also executes the
farmers query and controlling messages so
basically this basically helps in informing
the farmers about the field conditions with
the help of sms and different sending different
smses
so we will now look at a field demo and thereafter

Gujarati: 
નથી. પછી કેટલાક ક્રિયાઓ
લેવા માટે, ક્રિયાઓ
કેટલાક નિયંત્રણ
સંકેત મોકલવાની દ્રષ્ટિએ
હોઈ શકે છે, ઉદાહરણ
તરીકે પંપને ક્ષેત્રની
સિંચાઈ કરવા માટે
અને તેથી આગળ અને
પછી આગળ અને ત્યાં
દૂરસ્થ તેમજ સ્વયંચાલિત
સ્વયંને આપમેળે પણ
કરી શકાય છે.
તો, એજિસેન્સ સિસ્ટમ
શું કરે છે તે છે.
તેથી, સ્માર્ટ પાણી
વ્યવસ્થાપન માટે
એગ્રીસિન્સ સિસ્ટમની
આ પ્રસ્તાવિત સ્થાપત્ય

Malayalam: 
ഞങ്ങളുടെ ഒരു പ്രോസസ്സിംഗ്
യൂണിറ്റും മെമ്മറി
യൂണിറ്റും ഞങ്ങളുടെ
വയറ്ലെസ് ആശയവിനിമയ
യൂണിറ്റാണ്, നമുക്ക്
പവർ മാനേജ്മെന്റ്
യൂണിറ്റും ഉണ്ട്.
അതിനാൽ, ഇത് വികസിപ്പിച്ച
സെൻസർ നോഡിന്റെ ഏകീകൃത
രൂപകൽപ്പനയാണ്, ഈ
ഒരു നോഡ് ഈ നോഡ് അടിസ്ഥാനപരമായി
നിങ്ങൾക്ക് ഇവിടെ
കാണാൻ കഴിയുന്നതുപോലെ
ഒരു എൽ സി ഡി (LCD) യിൽ
വരുന്നു, അത് സിഗ്ബീ
(Zigbee) കണക്റ്റിവിറ്റിയിലും
സിഗ്ബീയിലും കണക്റ്റിവിറ്റി
ടെക്നോളജിയുടെ മുൻ
പ്രഭാഷണങ്ങളിലൊന്നിലും
ഞങ്ങൾ സിഗ്ബീയിലൂടെ
കടന്നുപോയിട്ടുണ്ട്.
അതിനു ശേഷം വൈദ്യുത
വിതരണത്തിൽ വിവിധ

Telugu: 
మరియు మల్టీ యూజర్
సర్వర్లు ప్రాథమికంగా
ఫీల్డ్ సమాచారాన్ని
SMS ను ఉపయోగించి రైతు
సెల్కు పంపించబడును
. మరియు రైతు ప్రశ్న(query)
మరియు నియంత్రణ సందేశాలను
(controlling messages) కూడా అమలు
చేస్తుంది.
అందువల్ల ప్రాథమికంగా
ఇది వివిధ రకాల ఎస్ఎమ్ఎస్
సహాయంతో రైతులకు
సమాచారం అందించడంలో
సహాయపడుతుంది.
కాబట్టి, మనము ఇప్పుడు
ఫీల్డ్ డెమోని చూస్తాము
మరియు తరువాత నేను
ఈ ప్రత్యేకమైన సిస్టమ్
యొక్క మరికొన్ని
ఇతర అంశాలను మీకు
చూపించబోతున్నాను.
కాబట్టి, నేను ఇప్పుడు
మిమ్మల్ని క్షేత్రానికి
తీసుకొని వెళ్తాను
మరియు వ్యవస్థ ఏ
విధంగా అమలు చేయబడిందో
మరియు ఫీల్డ్లో ఎలా
పనిచేస్తుందో మీకు
చూపిస్తాను.

English: 
i am going to show you few other different
aspects of this particular system so i am
going to now take you to the field and show
you how the system is deployed and how it
functions at the field now i am going to show
you one of the implementations of internet
of things in agriculture more specifically
this is for irrigation purpose how iot can
be used for irrigation purpose and what we
are doing is this is actually by the way ah
developed as a sponsored project of ah mhrd
and iit kharagpur and this was being developed
along with my colleague professor n s raghuvanshi
of the department of agriculture and food
engineering at iit kharagpur
so what you see over here is an agricultural

Bengali: 
তথ্য (data)অ্যাপ্লিকেশন
স্তর বিভিন্ন অ্যাপ্লিকেশন
উপলব্ধ করা হয়।
সুতরাং, এই বিশেষ
প্রকল্পটি (particular project)
সেন্সর (sensor) জন্য নকশা,
সেন্সর (sensor) নোড (node)
নকশা এবং রিমোট সার্ভা
রের নকশা (design) এবং
যোগাযোগ কাঠামোর
মতো বিভিন্ন উদ্দেশ্য
যেমন বিভিন্ন উদ্দেশ্য
জড়িত ছিল। সুতরাং,
এই প্রকল্পের অংশ
হিসাবে আমরা কি করেছি
আমরা একটি সেন্সর
(sensor) তৈরি করেছি যা
ক্ষেত্র ( field) এর জলের
স্তর (water level)পর্যবেক্ষণের
জন্য ব্যবহার করা
যেতে পারে। তাই, এই
বিশেষ সেন্সর (sensor)

Bengali: 
যা আমরা ক্ষেত্র
(field) ের (field) জলের স্তরের
(water level) পর্যবেক্ষণের
(monitoring) জন্য আমাদের
ল্যাবের মধ্যে তৈরী
করেছি।
সুতরাং, আরেকটি সেন্সর
(sensor) যা আমরা বিকাশ
করি নি, কিন্তু আমরা
ইসি 05 (EC 05) মাটির আর্দ্রতা
(soil moisture)সেন্সর (sensor)টি
অর্জন করেছি যা এই
বিশেষ চিত্রের মধ্যে
আপনি এই বিশেষ ছবিতে
দেখতে পারেন যেমন
আপনি দেখতে পাবেন
এটা আপনি পৃথিবীর
পৃষ্ঠের ভিতরে খনন
জানি হয়েছে। সুতরাং,
মাটির আর্দ্রতা (moisture)সেন্সর
(sensor) মূলত ভিতরের ভিতরে
স্থাপন করা হয় স্তর

Gujarati: 
છે. તેથી, અમારી પાસે
સિસ્ટમના વિવિધ સ્તરો
છે તેથી અમારી પાસે
સેન્સિંગ લેયર છે
દૂરસ્થ પ્રોસેસિંગ
લેયર અને એપ્લીકેશન
સ્તરે સેન્સિંગ લેયર
મૂળભૂત રીતે વિવિધ
પ્રકારનાં સેન્સર્સ
ભૂમિ ભેજ પાણીનું
સ્તર વગેરે છે, જે
વિવિધ ક્લસ્ટરોના
ડેટા દ્વારા તેમના
ક્લસ્ટર હેડ દ્વારા
ડેટા દ્વારા દૂરસ્થ
પ્રોસેસિંગ સર્વર
અને વિવિધ એનાલિટિક્સ
અને ચલાવવા માટે
અને તે ડેટા એપ્લિકેશન
લેયરની વિવિધ એપ્લિકેશન્સ

Telugu: 
ఇప్పుడు నేను వ్యవసాయంలో
ఉన్న విషయాల యొక్క
ఇంటర్నెట్ అమలులో
ఒకదానిని చూపించబోతున్నాను.
మరింత ముఖ్యంగా ఈ
నీటిపారుదల ప్రయోజనం
కోసం IoT ఉపయోగించవచ్చు
మరియు మనము చేస్తున్న
ఇది నిజానికి MHRD మరియు
IIT ఖరగ్పూర్ యొక్క
ప్రాయోజిత ప్రాజెక్ట్.
మరియు ఇది IIT Kharagpur వద్ద
వ్యవసాయం మరియు ఆహార
ఇంజనీరింగ్ శాఖ నా
సహోద్యోగి ప్రొఫెసర్
NS Raghuvanshi అభివృద్ధి
చేశారు.
కాబట్టి, ఇక్కడ మనము
చూసేది ఒక వ్యవసాయ
క్షేత్రం.
కాబట్టి, ఈ రంగంలో,
ఈ ఫీల్డ్ను 5బై 6(5 by
6) గ్రిడ్లగా విభజించారు
మరియు ఈ గ్రిడ్ అంశాలలో
ప్రతి ఒక్కటి 3 బై
3(3 by 3) సెం.మీ.
కాబట్టి ఈ గ్రిడ్లలో
ప్రతి ఒక్కటి ఒక
సెన్సార్ నోడ్ మరియు
ఈ సమయంలో మనము పంటలను
చూడలేము ఎందుకంటే
పంట కాలం పోయింది
మరియు పంటలు పండించబడ్డాయి,
కానీ ఇది మనము కలిగి

Malayalam: 
ഊർജ്ജ സ്രോതസ്സുകൾ
ഉണ്ട്, അപ്പോൾ അത്
ഇൻഡിക്കേറ്ററുള്ള
ഒരു ശക്തി, ഒരു റീസെറ്റ്
സ്വിച്ച്, ഓഫ് സ്വിച്ച്,
വ്യത്യസ്ത സെൻസറുകൾ
എന്നിവ ഈ പ്രത്യേക
കോർ ആകും. അതുകൊണ്ടു
തന്നെ ഡിസൈൻ ചെയ്തിട്ടുള്ള
സെൻസർ ബോർഡാണ് കാർഷികാവശ്യങ്ങൾക്കായി
സ്മാർട്ട് ജലസേചന
പദ്ധതിക്കായി ഉപയോഗിക്കുന്നത്.
റിമോട്ട് സെർവർ അടിസ്ഥാനപരമായി
ഇത് ഐസോട്ട് ഗേറ്റ്വേകളിലൂടെ
ഈ ഐ.ഓ.ടി. നോഡുകൾ വഴി
എല്ലാ ഡാറ്റയും എടുക്കാൻ
കഴിയുന്ന ഒരു റിപ്പോസിറ്ററിയും
വിദൂരമായി ഫീൽഡ്
ഡാറ്റയിൽ ശേഖരിക്കുന്ന
ഒരു വെബ് സെർവറും
ഉണ്ട്.

English: 
field so in this field this field is divided
into a six by five grid and each of these
grid elements has a size of three by three
square meters and ah so in each of these grids
what we have is a sensor node and at this
point actually you cannot see any crops because
the crop the season has gone and the crops
have been harvested but this is the infrastructure
that we have so this is a solar powered sensor
node and if we look here in this node we have
ah through this node actually we have two
different sensors one is a soil moisture sensor
which is basically buried in ground and there
is another sensor which is the water level
sensor so the soil moisture sensor basically
as this name says that it ah it basically

Bengali: 
স্তরের কাদা স্তর
বা পৃথিবীর স্তরের
স্তর ইনস্টল করা।
সুতরাং, ভিতরে ভিতরে
এটি খন হয়।
সুতরাং, এটি সেন্সর
(sensor) নোড (node) এর সামগ্রিক
নকশা (design) । সুতরাং,
এখানে মূলত আমাদের
কি সেন্সর (sensor) এবং
একুয়াটার (actuators) থেকে
পৃথক আছে আমরা একটি
প্রক্রিয়াকরণ (processing)
ইউনিট আছে এবং মেমরি
ইউনিট (memory unit) আমাদের
বেতার যোগাযোগ ইউনিট
(wireless connection unit) আছে এবং
আমাদের শক্তি ব্যবস্থাপনা
ইউনিট (power management unit) আছে।
সুতরাং, এটি একটি
সেন্সর (sensor) নোড (node)
এর সংহত (integrate)নকশা

Telugu: 
ఉన్న అవస్థాపన (infrastructure)
కాబట్టి , ఈ సౌర శక్తితో
సెన్సార్ నోడ్ మరియు
ఈ నోడ్ లో చూస్తే
మనం ఈ నోడ్ వాస్తవానికి
కలిగి మనము రెండు
వేర్వేరు సెన్సార్లు
కలిగి ఉన్నది - ఒకటి
మట్టి తేమ సెన్సార్
ఇది ప్రధానంగా భూమిలో
ఖననం (buried) చేయబడినది
మరియు నీటి స్థాయి
సెన్సార్ ఇది మరొక
సెన్సార్.
కాబట్టి, ప్రధానంగా
నేల తేమ సెన్సార్
నేల తేమ ను మరియు
నీటి స్థాయి సెన్సార్
ఈ ప్రత్యేక గ్రిడ్
లో నీటి స్థాయి ఎంత
ఉంది అనేది తెలుపును
.
మరియు ఈ రెండు సెన్సార్
డేటా ఈ ప్రత్యేక
నోడ్కు పంపబడతాయి.
కాబట్టి, ఈ నోడ్ ప్రాథమికంగా
జిగ్బీ శక్తి ని
కలిగి ఉన్నది మరియు
ఈ డేటాను క్లస్టర్
తో జిగ్బీ కమ్యూనికేషన్
కలిగి ఉంది. కాబట్టి,
ఇక్కడ మనం వాడేది
సెన్సార్ విస్తరణ
కోసం క్లస్టర్ ఆధారిత
విధానం క్లస్టర్
ఆర్కిటెక్చర్.
కాబట్టి, ఇక్కడ ఉన్న
ప్రతి నోడ్ నుండి

English: 
sensors the soil moisture and the water level
sensor is how much is the stagnant water level
in this particular grid
so this is what it measures and these two
sensor data are sent to this particular node
and ah so this node basically has you know
it is zigbee power and this data has zigbee
communication with the cluster head so here
actually what we use is a cluster based approach
cluster architecture for sensor deployment
and ah so from this node ah from every node
that we have here the data are sent via zigbee
to the cluster head and from the cluster head
cluster head basically supports two types
of communication one is the ah zigbee communication
for intra cluster communication ah and the
other one is the gprs communication from the
cluster head to the ah the the the control
room where the servers are there for further
analysis

Malayalam: 
അതായത് വെബ് സെർവർ
സാധാരണയായി ഫീൽഡിൽ
നിന്നും സൂക്ഷിച്ചു
വയ്ക്കുന്നത്, ഭാവിയിൽ
ഡാറ്റ ഉപയോഗിക്കാൻ
എല്ലാ സ്റ്റോറേജും
ഇവിടെ സൂക്ഷിക്കുന്നു.
കൂടാതെ എസ്എംഎസ്
(SMS) ടെക്നോളജി ഉപയോഗിച്ച്
ഫാമിലി സെല്ലിന്
അടിസ്ഥാനമായി ഫീൽഡ്
വിവരം അയയ്ക്കുന്ന
നിരവധി മൾട്ടി യൂസർ
സെർവറുകളും ഉണ്ട്
കൂടാതെ കർഷകന്റെ
ചോദ്യവും നിയന്ത്രിത
സന്ദേശങ്ങളും പ്രവർത്തിപ്പിക്കുകയും
ചെയ്യുന്നു.
അങ്ങനെ അടിസ്ഥാനപരമായി
ഇത് എസ്എംഎസ് (SMS) സഹായത്തോടെ
വ്യത്യസ്ത എസ്എംഎസ്
(SMS) അയച്ചുകൊണ്ട്
ഫീൽഡ് അവസ്ഥകളെക്കുറിച്ച്
ഫീൽഡിൽ അറിയിക്കുന്നതിൽ
അടിസ്ഥാനപരമായി
സഹായിക്കുന്നു.

Gujarati: 
માટે ઉપલબ્ધ કરવામાં
આવે છે.
તેથી, આ ચોક્કસ પ્રોજેક્ટમાં
વિવિધ હેતુઓ સામેલ
છે જેમ કે સેન્સર
માટે ડિઝાઇન, જેમ
કે સેન્સર નોડ ડિઝાઇન
અને દૂરસ્થ સર્વર
અને કોમ્યુનિકેશન
ફ્રેમવર્કની ડિઝાઇન.
તેથી, આ પ્રોજેક્ટના
ભાગ રૂપે આપણે શું
કર્યું છે અમે સેન્સર
વિકસાવી છે જેનો
ઉપયોગ ક્ષેત્રમાં
પાણીનું સ્તર નિરીક્ષણ
કરવા માટે થઈ શકે
છે. તેથી, આ ચોક્કસ

Bengali: 
(design) যা আমরা এই একটি
নোড (node ) তৈরি করেছি
এবং এই নোড (node )টি মূলত
হিসাবে আপনি এখানে
দেখতে পারেন এটি
একটি এল সি ডি (LCD) এর
সাথে আসে এবং এটি
জিগবি (Zigbee) দ্বারা
পরিচালিত যোগাযোগ
এবং জিগবির (Zigbee) জন্য
যোগাযোগের প্রযুক্তি
(technology)র উপর পূর্ববর্তী
এক বক্তৃতাতে আমরা
ইতিমধ্যে জিগবি (Zigbee)
সম্পর্কে পরেছি তারপর
একটি পাওয়ার সাপ্লাই
((power supply) আছে এটি বিভিন্ন
শক্তি সরবরাহ আছে
তারপর এটি সূচক একটি
শক্তি আছে, একটি রিসেট

English: 
so this is the architecture that we have and
ah so the sensor data you know are being in
the sense from these two sensors one is the
soil moisture and the water level sensor and
if the water level has gone down or the soil
moisture is not adequate enough so automatically
we have the valves the ah the solenoid valves
and the solenoid valves will be turned on
so here is one solenoid valve that you can
see on your ah on my on my left here the solenoid
valve and likewise every field has other solenoid
valves
so there is another solenoid valve there ok
and so what is going to happen is the pump
you know it is going to turned on will be
turned on and the water is going to be you
know the the field is going to be irrigated
by those ah ah this solenoid valves so as

Telugu: 
ఈ నోడ్ నుండి డేటాను
జిగ్బీ ద్వారా క్లస్టర్
హెడ్ మరియు క్లస్టర్
హెడ్ నుండి నోడ్
కి పంపిచబడును . క్లస్టర్
హెడ్ ప్రాథమికంగా
రెండు రకాల కమ్యూనికేషన్లను
కలిగి ఉన్నది ఒకటి,
ఇంట్రా క్లస్టర్
కమ్యూనికేషన్ కోసం
జిగ్బీ కమ్యూనికేషన్
మరియు మరొకటి క్లస్టర్
హెడ్ నుండి నియంత్రణ
గదికి (control room) GPRS కమ్యూనికేషన్ను
కలిగి ఉంటుంది, ఇక్కడ
సర్వర్లు మరింత విశ్లేషణ
కోసం ఉన్నాయి.
కాబట్టి, ఇది మనము
కలిగి ఉన్న నిర్మాణం
మరియు మనకు తెలిసిన
ఈ రెండు సెన్సార్లు
- ఒకటి మట్టి తేమ మరియు
నీటి స్థాయి సెన్సార్
మరియు నీటి స్థాయి
పడిపోయినప్పుడు
లేదా నేల తేమ తగినంత
లేనప్పుడు సెన్సార్
డేటా ద్వారా తెలుస్తుంది
. కాబట్టి, స్వయంచాలకంగా
(automatically) మనము కరిగే
సోలెనోయిడ్ కవాటాలు
(valve) మరియు సోలేనోయిడ్
కవాటాలను కలిగి ఉంటుంది,
కాబట్టి ఇక్కడ ఒక
సోలేనోయిడ్ వాల్వ్
మరియు అదే విధంగా
ప్రతి క్షేత్రం ఇతర
సోలెనోయిడ్ వాల్వ్లను
కలిగి ఉండును .
కాబట్టి, ఇప్పుడు
మనము పంపు ఆన్ చేయబోతున్నాము

Malayalam: 
അതിനാൽ നമ്മൾ ഇപ്പോൾ
ഒരു ഫീൽഡ് ഡെമോ നോടും,
അതിനുശേഷം ഈ പ്രത്യേക
സിസ്റ്റത്തിന്റെ
ചില വ്യത്യസ്ത വശങ്ങളെ
ഞാൻ കാണിച്ചുതരാം.
അതിനാൽ, ഞാൻ ഇപ്പോൾ
നിങ്ങളെ വയലിൽ കൊണ്ടുപോകുകയും
സിസ്റ്റം എങ്ങനെ
വിന്യസിക്കുകയും
ഫീൽഡിൽ ഇത് പ്രവർത്തിക്കുന്നുവെന്ന്
കാണിച്ചുതരാം.
ഇപ്പോൾ ഞാൻ കാർഷിക
മേഖലയിലെ ഇൻറർനെറ്റിൻറെ
നടപ്പാക്കലിൽ ഒന്നു
കാണിച്ചു തരാം. കൂടുതൽ
പ്രത്യേകമായി ഇത്
ജലസേചനാവശ്യങ്ങൾക്ക്
ഐ.ഒ.ടിയെ എങ്ങനെ ഉപയോഗിക്കാമെന്നതിന്
ജലസേചനാവശ്യങ്ങൾക്ക്
വേണ്ടിയാണ്.
നമ്മൾ എന്താണ് ചെയ്യുന്നത്
വഴി എം.ഛ്.ആർ.ഡി, (MHRD)

Gujarati: 
સેન્સર છે જે અમે
ક્ષેત્રે પાણીના
સ્તરની દેખરેખ માટે
અમારા લેબમાં વિકસાવી
છે.
તો, બીજું એક સેન્સર
જે અમે વિકસિત કર્યું
નથી, પણ અમે પ્રાપ્તિ
કરી છે EC 05 માટી ભેજ
સંવેદક છે જે આ ચોક્કસ
આંકમાં છે કે તમે
આ ચોક્કસ ચિત્રમાં

Gujarati: 
જોઈ શકો છો કારણ કે
તમે જોઈ શકો છો તમને
ખબર છે કે પૃથ્વીની
સપાટીની અંદરથી ખોદવામાં
આવે છે. તેથી, ભૂમિ
ભેજ સંવેદક મૂળભૂત
રીતે અંદર મૂકવામાં
આવે છે સ્તરની અંદર
કચરાના સ્તરે કાદવનું
સ્તર અથવા પૃથ્વીનું
સ્તર. તેથી, તે અંદર
છે તે અંદર ખોદવામાં

Malayalam: 
ഐഐടി ഖരഗ്പൂർ എന്നിവയുടെ
സ്പോൺസേർഡ് പ്രോജക്ടായി
ഒളിപ്പിച്ചു.
ഇത് ഖരക്പൂരിലെ ഐ.ഐ.ടി.യിലെ
കൃഷി, ഭക്ഷണ എൻജിനീയറിങ്
വകുപ്പിലെ സഹപ്രവർത്തക
പ്രൊഫസർ എൻ.എസ്. അതിനാൽ,
നിങ്ങൾ ഇവിടെ കാണുന്നത്
കാർഷിക മേഖലയാണ്.
അതിനാൽ, ഈ ഫീൽഡിൽ,
ഈ ഫീൽഡ് 6 ആറ് ഗ്രിഡായി
തിരിച്ചിട്ടുണ്ട്.
ഈ ഗ്രിഡ് ഘടകങ്ങളിൽ
ഓരോന്നും 3 ചതുരശ്ര
മീറ്റർ വലിപ്പമുണ്ട്.
ഈ ഓരോ ഗ്രിഡിലും
ഓരോ സെന്സര് നോഡാണ്
ഉള്ളത്.
ഈ സമയത്ത് നിങ്ങള്ക്ക്
ഒരു വിളയും കാണാന്
കഴിയില്ല.
കാരണം, വിളവെടുപ്പ്
കാലവും, വിളവെടുപ്പു
കഴിഞ്ഞു.
നമുക്ക് ഉള്ള ഇൻഫ്രാസ്ട്രക്ചർ.
അതിനാൽ, ഇത് ഒരു സൗരോർജ്ജ
സെൻസർ നോഡ് ആണ്. ഈ
നോഡിൽ നമ്മൾ നോക്കിയാൽ
ഈ നോഡിലൂടെ നമ്മൾ
രണ്ടു വ്യത്യസ്ത
സെൻസറുകളാണുള്ളത്
- ഒന്ന് മണ്ണിൽ ഈർപ്പം
സെൻസർ ആണ്, അടിസ്ഥാനപരമായി
നിലത്ത് കുഴിച്ചിട്ട
വെള്ളം മറ്റൊരു സെൻസർ
ആണ് ലെവൽ സെൻസർ.
അതിനാൽ, ഈ പേര് പോലെ
മണ്ണ് ഈർപ്പത്തിന്റെ
സെൻസർ അത് അടിസ്ഥാനപരമായി
സെൻസറുകൾ മണ്ണ് ഈർപ്പം

English: 
you can see over here the valve has been turned
on just now and the field is going to be irrigated
ah with the water because there is no i am
not adequate water in the field so as i told
you that we are actually following a cluster
based architecture for the sensor deployment
so here what we have is a cluster head this
cluster head has support for both zigbee communication
which is happening through this particular
node and there is also support for ah gprs
communication through this particular board
and additionally we have the different relays
as you can see here for turning on the pumps
ah if it is required to irrigate the field
and so through this antenna basically this
communication is happening ah with the with

Bengali: 
সুইচ, বন্ধ সুইচ এবং
বিভিন্ন সেন্সর (sensor)
এই বিশেষ কোর লাগানো
হতে পারে। তাই, এটি
সেন্সর (sensor) বোর্ড
যা আমরা নকশা (design)
করেছি এবং যা কৃষি
(agriculture)উদ্দেশ্যে স্মার্ট
সেচ (SMART irrigation) উদ্দেশ্যে
ব্যবহৃত হতে পারে।
তারপর দূরবর্তী (remote)
সার্ভার মূলত এটি
একটি সংগ্রহস্থল
আছে যা এই বিভিন্ন
সেন্সর (sensor) আইওটি
(IoT) গেটওয়ে মাধ্যমে
এই আইওটি (IoT) নোড (node)
থেকে সব তথ্য (data)নিতে
পারেন এবং একটি ওয়েব
সার্ভার যা মূলত
ক্ষেত্র (field) এর তথ্য
(data)দূরবর্তী (remote)ভাবে

Telugu: 
మరియు ఈ నీటితో మనము
ఈ విధంగా సోలేనోయిడ్
కవాటాల ద్వారా సాగు
చేస్తాము . మరియు
క్షేత్రంలో నీరు
తగినంతగా ఉండదు కాబట్టి,
నీటితో సాగు చేయాలి.
కాబట్టి, మనము వాస్తవానికి
సెన్సార్ అమరిక కోసం
క్లస్టర్ ఆధారిత
నిర్మాణాన్ని అనుసరిస్తున్నాము
, ఇక్కడ మనము ఉపయోగిస్తున్న,
ఈ క్లస్టర్ హెడ్
ద్వారా జరుగుతున్న
జిగ్బీ కమ్యూనికేషన్కు
ప్రత్యేక నోడ్ మద్దతు
ఇస్తుంది మరియు ఈ
ప్రత్యేక బోర్డు
ద్వారా GPRS కమ్యూనికేషన్
కి కూడా మద్దతు ఇస్తుంది
. మరియు ఈ యాంటెన్నా
ద్వారా ప్రాథమికంగా
ఈ కమ్యూనికేషన్ బయటి
ప్రపంచంతో సంభవిస్తుంటుంది
కాబట్టి ఫీల్డ్ను
సాగు చేయడం అవసరం
అయితే పంపులను ఆన్
చేయడానికి చేయవచ్చును
.ఇక్కడ మనము కమ్యూనికేషన్
లో వివిధ రిలేలను
కలిగి ఉంటాము.
కాబట్టి , ఈ క్లస్టర్
హెడ్ యొక్క పని విధానము
.
కాబట్టి , ఇప్పుడు
మనము ఈ AgriSens వ్యవస్థ
కోసం వెబ్ ఇంటర్ఫేస్
చూపుతుంది.
కాబట్టి, మనము ముందు
చూసినట్టు ఇది URL

Gujarati: 
આવે છે.
તેથી, આ સેન્સર નોડના
એકંદર ડિઝાઇન છે.
તેથી, અહીં મૂળભૂત
રીતે આપણી પાસે છે
સેન્સર અને એક્ટ્યુએર્સ
સિવાય, અમારી પાસે
પ્રોસેસીંગ યુનિટ
અને મેમરી યુનિટ
છે જે પાસે વાયરલેસ
કમ્યુનિકેશન યુનિટ
છે અને અમારી પાસે

Malayalam: 
ജലത്തിന്റെ സെൻസർ
ഈ പ്രത്യേക ഗ്രിഡിൽ
സ്തംഭനാവസ്ഥയിലുള്ള
വെള്ളം നില എത്ര
പറയുന്നു.
അതുകൊണ്ട്, ഇതു നടപടിയാണ്.
ഈ രണ്ട് സെൻസർ ഡാറ്റയും
ഈ പ്രത്യേക നോഡിലേക്ക്
അയയ്ക്കുന്നു.
അതുകൊണ്ട്, സിഗ്ബീ
വൈദ്യുതിയാണെന്ന്
ഈ നോഡ് അടിസ്ഥാനപരമായി
നിങ്ങൾക്ക് അറിയാം,
ഈ ഡാറ്റ ക്ലസ്റ്റർ
തലത്തിൽ സിഗ്ബീ (Zigbee)
ആശയവിനിമയം നടത്തുന്നു.
അതിനാല് യഥാര്ത്ഥത്തില്
നമ്മള് എന്തിനാണ്
ഉപയോഗിക്കുന്നത്
ഒരു ക്ലസ്റ്റര് അടിസ്ഥാന
രീതിയിലുള്ള ക്ലസ്റ്റര്
ആര്ക്കിടെക്ചറാണ്,
സെന്സര് വിന്യാസത്തിനായി.
അതിനാൽ, ഇവിടെയുള്ള
എല്ലാ നോഡിലുമുളള
ഈ നോഡിൽ നിന്നും
ഡാറ്റാ സിഗ്ബീയിലൂടെ
ക്ലസ്റ്റർ തലയിലേക്കും
ക്ലസ്റ്റർ തലയിലേക്കും
അയയ്ക്കുന്നു.
ക്ലസ്റ്റർ തല രണ്ട്
തരം ആശയവിനിമയങ്ങളെ
പിന്തുണയ്ക്കുന്നു.
ക്രെസ്റ്റർ ആശയവിനിമയത്തിനുള്ള
സിഗ്ബീ (Zigbee) ആശയവിനിമയം,
രണ്ടാമത്തേത് ക്ലസ്റ്റർ
തലത്തിൽ നിന്നും
ജിആർആർഎസ് ആശയവിനിമയത്തിനുള്ള
കൺട്രോൾ റൂമിലേക്ക്
സെർവറുകൾ ഉണ്ട്.
അതിനാല്, നമ്മള്ക്ക്
ഉള്ള വാസ്തുവിദ്യയും
അതിനാല് നിങ്ങള്ക്കറിയാവുന്ന
സെന്സര് ഡാറ്റയും
ഈ രണ്ടു സെന്സറുകളില്
നിന്നുമാണ്.
ഒന്ന് മണ്ണ് ഈര്പ്പം,
ജലനിരപ്പ് എന്നിവയാണ്.
ജലനിരപ്പ് കുറഞ്ഞുവരികയോ
മണ്ണ് ഈര്പ്പം അല്ലെങ്കിലോ
മതിയായ മതിയായ.
അതിനാൽ, സ്വപ്രേരിതമായി
നമുക്ക് സോളോയിഡിഡ്
വാൽവുകളും സെലനോയ്ഡ്
വാൽവുകളും ഓടിച്ചെടുക്കണം.
അതിനാൽ ഇവിടെ ഒരു
സോളിനോയ്ഡ് വാൽവ്
നിങ്ങളുടെ ഇടതുഭാഗത്ത്
സോളിനോയ്ഡ് വാൽവ്

English: 
the external world so this is the this is
how the cluster head looks like
so now i will show you the web interface for
this agrisens system so as i mentioned to
you earlier it is accessible through the url
agrisys dot iit kgp dot ac dot in and we have
deployed this particular system in two locations
one in iit kharagpur and the other one in
a distant village close to binapur and so
this is the overall you know ah web interface
and as we can see over here that it gives
lot of information about the water level sensor
that we have developed the deployed sensor
nodes you can read more ah the wireless sensor

Bengali: 
সংরক্ষণ (store) করা হয়;
যে মানে, ওয়েব সার্ভার
সাধারণত ক্ষেত্র
(field) থেকে দূরে সংরক্ষণ
করা হয় এবং যে যেখানে
তথ্য (data )সব ভবিষ্যতে
ব্যবহারের জন্য সংরক্ষিত
হয়। এবং মাল্টি
ইউজার সার্ভার রয়েছে
যা মূলত এসএমএস প্রযুক্তি
(technology)র মাধ্যমে কৃষকের
সেলকে ক্ষেত্র (field)
ের তথ্য (data)প্রেরণ
করে এবং কৃষকের ক্যোয়ারী
এবং নিয়ন্ত্রণকারী
বার্তাগুলিকেও চালায়।
তাই, মূলত এই মূলত
এসএমএসের সাহায্যে
ক্ষেত্র (field) ের অবস্থার
সম্পর্কে কৃষকদেরকে
তথ্য (data)সরবরাহের
ক্ষেত্র (field) ে এবং
অন্যান্য বিভিন্ন
এসএমএস পাঠানোর ক্ষেত্র

Telugu: 
agrisys.iitkgp.ac.in ద్వారా అందుబాటులో
ఉంటుంది మరియు ఈ
ప్రత్యేకమైన వ్యవస్థను
రెండు స్థానాల్లో
ఒకటి
ఐఐటి ఖరగ్పూర్ మరియు
ఇతర సుదూర ప్రాంతాము
లో ఉన్న బిదాపూర్
సమీపంలోని గ్రామం.
కాబట్టి , ఈ వెబ్ ఇంటర్ఫేస్
మనకు అవసరమైన నీటి
స్థాయి సెన్సార్
గురించి సమాచారం
ఇస్తుంది.మరియు మనము
మరింత విస్తృత సెన్సార్
నోడ్స్ అభివృద్ధి
చేయవచ్చును దానిలోవి
, వైర్లెస్ సెన్సార్
నెట్వర్క్ మరియు
రైతులకు అందించే
SMS సేవ. కాబట్టి,ఈ సైట్
ద్వారా మరింత సమాచారం
అందుబాటులో ఉంది
మరియు ఈ విభిన్న
సంబంధాల ద్వారా నేను
ఇప్పటికే పేర్కొన్న
వ్యక్తుల ద్వారా

English: 
network that is there and the sms service
that is offered to the farmers so more information
is available through this site and also through
these different links the people that are
involved i already mentioned to you that it
is being it has been done by our group the
swan group of the department of cse ah along
with the agriculture and food engineering
department at iit kharagpur
ah so here ah you know we can through this
particular portal we can look at the field
conditions and the different sensors you know
the different health monitoring on the different
sensors that are there so if you login using
the login credentials 

Bengali: 
(field) এ তথ্য (data)সরবরাহ
করতে সহায়তা করে।
সুতরাং, আমরা এখন
একটি ক্ষেত্র (field)
র (field) ডেমো (demo) দেখব
এবং এর পরে আমি আপনাকে
এই নির্দিষ্ট সিস্টেমের
কয়েকটি ভিন্ন ভিন্ন
দিক দেখাব। তাই, এখন
আমি আপনাকে ক্ষেত্র
(field) ের কাছে নিয়ে
যাব এবং দেখাবো কিভাবে
সিস্টেমটি নিযুক্ত
করা হয় এবং ক্ষেত্র
(field) টিতে এটি কিভাবে
কাজ করে। এখন আমি
আপনাদের কৃষি (agriculture)কর্মকাণ্ডে
ইন্টারনেটের একটি
বাস্তবায়ন দেখাব।
আরো বিশেষভাবে এই

Telugu: 
అది మా గ్రూప్ CSE యొక్క
విభాగం యొక్క స్వాన్
గ్రూప్ ,వ్యవసాయం
మరియు ఆహారంతో పాటు
ఐఐటి, ఖరగ్పూర్ ఇంజనీరింగ్
విభాగం ద్వారా జరిగింది.
కాబట్టి, ఈ ప్రత్యేక
పోర్టల్ ద్వారా మనము
క్షేత్ర పరిస్థితులు
మరియు విభిన్న సెన్సార్ల
గురించి వేర్వేరు
సెన్సార్లపై వివిధ
ఆరోగ్య పర్యవేక్షణ
గురించి తెలుసుకోవచ్చును
.
కాబట్టి, మనము లాగిన్
ఆధారాలను ఉపయోగించి
లాగిన్ చేస్తే, ఇది
ప్రాథమికంగా క్షేత్రాల్లోని
నోడు స్థితిని మరియు
వీటిని విభిన్న స్థాయి
తెలుసుకోవచ్చును
.
కాబట్టి, మనకు ఎరుపు
రంగు వున్నది, వాస్తవానికి
ఇప్పుడు గడియారం
ఇప్పటికే పండించబడి
ఉంది, ఇది సెన్సార్

Malayalam: 
കാണും, അതുപോലെ ഓരോ
ഫീൽഡിനും മറ്റു സോളിനോയിഡ്
വാൽവുകൾ ഉണ്ട്.
അവിടെ മറ്റൊരു സോളിനോയിഡ്
വാൽവ് ഉണ്ട്.
അതിനാൽ, സംഭവിക്കാൻ
പോകുന്ന പമ്പ് അത്
ഓടാൻ പോകുകയാണെന്ന്
നിങ്ങൾ ഓർക്കണം.
വെള്ളം നീങ്ങാൻ പോകുന്നത്
ഈ ഫീൽഡ് ജലസേചനം
സോളിനോയിഡ് വാൽവുകൾ.
ഇപ്പോൾ നിങ്ങൾക്ക്
കാണാൻ കഴിയുന്നത്
പോലെ ഇപ്പോൾ വാൽവ്
ഇപ്പോൾ തിരിയുകയാണ്,
വയലിൽ വെള്ളം കൊണ്ട്
ജലസേചനം നടത്താൻ
പോകുന്നില്ല, കാരണം
വയലിൽ മതിയായ വെള്ളം
എനിക്കില്ല.
അതിനാൽ, സെലക്ടർ
വിന്യാസത്തിനായി
ഞങ്ങൾ ക്ലസ്റ്റർ
അധിഷ്ഠിത വാസ്തുവിദ്യ
പിന്തുടരുമെന്ന്
നിങ്ങളോട് പറഞ്ഞപ്പോൾ
ഒരു ക്ലസ്റ്റർ ഹെഡ്
ആണ് ഞങ്ങൾക്ക് ഈ
ക്ലസ്റ്റർ തലയ്ക്ക്
പിന്തുണ നൽകുന്നത്,
ഇത് വഴി സംഭവിക്കുന്ന
സിഗ്ബീ ആശയവിനിമയത്തിന്
പിന്തുണ നൽകുന്നു.
പ്രത്യേക ബോർഡിൽ
ജിപിആർഎസ് (GPRS) ആശയവിനിമയത്തിനും
പിന്തുണയുണ്ട്.
ഈ ഫീൽഡ് ജലസേചനം
ചെയ്യാൻ ആവശ്യമെങ്കിൽ
പമ്പുകൾ ഓണാക്കാൻ
ഇവിടെ നിങ്ങൾക്ക്
കാണാൻ കഴിയുന്നതുപോലെ
വ്യത്യസ്ത റിലേകളുണ്ട്.
അതിനാൽ ഈ ആന്റിനയിലൂടെ
ബാഹ്യലോകവുമായി
ഈ ആശയവിനിമയം നടക്കുന്നു.
അതുകൊണ്ട്, ക്ലസ്റ്റർ
തല എങ്ങനെ കാണുന്നു.
ഇപ്പോൾ, ഞാൻ ഈ AgriSens
സിസ്റ്റത്തിനുള്ള
വെബ് ഇന്റർഫേസ് നിങ്ങളെ
കാണിക്കും.
ഞാൻ നേരത്തെ സൂചിപ്പിച്ചത്
പോലെ URL agrisys.iitkgp.ac.in മുഖേന
ഇത് ആക്സസ് ചെയ്യാവുന്നതും
രണ്ട് പ്രത്യേക സ്ഥലങ്ങളിൽ

Gujarati: 
પાવર મેનેજમેન્ટ
એકમ છે.
તેથી, આ એક સેન્સર
નોડનું એકીકૃત ડિઝાઇન
છે કે જેને આપણે આ
એક નોડ અને આ નોડ મૂળભૂત
રીતે વિકસાવી છે
કારણ કે તમે અહીં
જોઈ શકો છો કે તે એલસીડી
સાથે આવે છે અને તે

Telugu: 
నోడ్లతో విస్తరించిన
వరి పొలం. అందువల్ల,
పంట ఇప్పటికే పండించడం
జరిగింది,దానివలన
ఇది ఎర్ర రంగును
చూపుతున్నది , సెన్సార్
నోడ్ ఏ ఇతర డేటాను
గుర్తించలేదు.
మరియు వివిధ స్టేటస్
సందేశాల ను ఈ ప్రత్యేక
పోర్టల్ ద్వారా మరియు
మునుపటి డేటా ద్వారా
కూడా పొందవచ్చు,
అందులో ఒకటి మనకు
ఫీల్డ్ యొక్క రిమోట్
పర్యవేక్షణలో సహాయపడుతుంది.
ఈ ద్వారా చూడవచ్చు
మరియు అందువల్ల ఈ
ప్రపంచంలోని ఫీల్డ్
పరిస్థితులను పర్యవేక్షించగలము
. కాబట్టి , ఇప్పుడు,
నేను మా సర్వర్ వద్ద
నేను పొందిన డేటా
ప్లాట్లు ను ఇక్కడ

English: 
so this is basically the node status from
one of the fields ah as we can see these are
the different status that i had mentioned
and these are the different status that i
had mentioned ah so we have ah red colour
implying that now actually the clock has already
been harvested it was a paddy paddy field
where the sensor nodes are deployed so crop
has already been harvested that is why it
is showing red colour means that the sensor
node is not sensing any further data and also
the different status messages you know so
can be obtained through this particular portal
and previous data also one can see through
this and ah so this basically you know helps
in remote monitoring of the field ah you know
even if one is in another part of the world
still they you would be able to monitor the

Bengali: 
সেচ এর (irrigation) উদ্দেশ্যে
যে কিভাবে সেচ এর
(irrigation) উদ্দেশ্যে আইওটি
(IoT)ব্যবহার করা যেতে
পারে এবং আমরা যা
করছি তা হল এইভাবে
এমএইচআরডি (MHRD) এবং
আইআইটি খড়গপুরের
একটি প্রস্তাবিত
(SPONSORED) প্রকল্প(PROJECT)
হিসেবে অগ্রসর হয়
এবং এটি আইআইটি খড়গপুরের
কৃষি (agriculture)ও খাদ্য
প্রকৌশল বিভাগের
সহকারি অধ্যাপক এন.এস.
রঘুবংশী সহ তৈরী
হয়েছে। সুতরাং,
আপনি এখানে দেখুন
কি একটি কৃষি (agriculture)ক্ষেত্র
(field) । সুতরাং, এই ক্ষেত্র
(field)এ, এই ক্ষেত্র (field)
টি 6 দ্বারা 5 গ্রীডে
ভাগ করা হয় এবং প্রতিটি
গ্রিডের উপাদানের
3 বর্গ মিটারের আকারে
থাকে।

Gujarati: 
ઝિગ્બી દ્વારા સંચાલિત
છે સંદેશાવ્યવહાર
અને ઝિગ્બી માટે
કનેક્ટિવિટી તકનીકીઓ
પરનાં પહેલાના પ્રવચનોમાં
અમે ઝિગ્બી દ્વારા
પહેલાથી પસાર થઈ
ગયા છીએ. પછી તેમાં
વીજ પુરવઠો પણ હોય
છે જેમાં તેની પાસે
અલગ અલગ વીજ પુરવઠો
હોય છે, પછી તેની પાસે

Malayalam: 
ഒന്ന് ഈ പ്രദേശത്ത്
വിന്യസിച്ചിട്ടുണ്ട്
ഐഐടി ഖരഗ്പൂർ, ബിദാപൂരിന്
അടുത്തുള്ള ഗ്രാമം.
അതിനാൽ, വെബ് ഇന്റർഫേസിനു
നിങ്ങൾക്കറിയാവുന്ന
മൊത്തത്തിലുള്ള
വ്യത്യാസമാണിത്.
ഇവിടെ നിങ്ങൾക്ക്
കൂടുതൽ വിസ്തൃതമായ
സെൻസർ നോഡുകൾ വികസിപ്പിച്ചെടുത്തിട്ടുള്ള
വാട്ടർ ലെവൽ സെൻസറിനെ
കുറിച്ചുള്ള ധാരാളം
വിവരങ്ങൾ നൽകുന്നു,
അവിടെ കൂടുതൽ വായിക്കാവുന്ന
വയർലെസ് സെൻസർ നെറ്റ്വർക്ക്
കർഷകർക്ക് വാഗ്ദാനം
ചെയ്ത എസ്എംഎസ് സേവനം.
അതിനാൽ, കൂടുതൽ വിവരങ്ങൾ
ഈ സൈറ്റിലൂടെയും
ഈ വ്യത്യസ്ത ലിങ്കുകളിലൂടെയും
ഞാൻ ഇതിനോടകം പറഞ്ഞിട്ടുണ്ട്,
അത് ഞങ്ങളുടെ ഗ്രൂപ്പിലെ
കൃഷിയും ഭക്ഷണവുമൊക്കെയായി
CSE വകുപ്പിലെ ഗാർഡൻ
ഗ്രൂപ്പിന്റെ നടത്തിപ്പിനായി
ചെയ്തു എന്നുള്ളതാണ്
ഖരഗ്പൂർ ഐഐടിയിൽ
എൻജിനീയറിങ് വകുപ്പ്.
അതിനാൽ, നിങ്ങൾക്ക്
ഈ പ്രത്യേക പോർട്ടലിലൂടെ
മാത്രമേ അറിയാൻ കഴിയുകയുള്ളൂ,
അവിടെ നിങ്ങൾക്ക്
വിവിധ സെന്സറുകളിലുള്ള
വ്യത്യസ്ത ആരോഗ്യ
നിരീക്ഷണങ്ങളറിയാം,
നിങ്ങൾക്ക് വയൽ അവസ്ഥയും
വ്യത്യസ്ത സെൻസറുകളും
കാണാൻ കഴിയും.
അതുപോലെ, നിങ്ങൾ
പ്രവേശന ക്രെഡൻഷ്യലുകൾ
ഉപയോഗിച്ച് ലോഗിൻ
ചെയ്താൽ, ഇത് അടിസ്ഥാനപരമായി
വയലിൽ ഏതെങ്കിലും
ഒന്നിൽ നിന്നുള്ള
നോഡ് സ്റ്റാറ്റസ്
ആണ്, ഞാൻ സൂചിപ്പിച്ച
വ്യത്യസ്ത നിലയാണ്
ഇവയെല്ലാം ഞാൻ പരാമർശിച്ചു.
നമുക്കിപ്പോൾ ചുവപ്പ്
നിറം ഉണ്ട്, ഇപ്പോൾ
തന്നെ ക്ലോക്ക് ഇതിനകം
വിളവെടുത്തിട്ടുണ്ട്,
അത് സെൻസർ നോഡുകൾ
വിന്യസിച്ചിരിക്കുന്ന
ഒരു നെല്ലാണ്.
അതിനാൽ വിളയുടെ വിളവെടുപ്പ്
പൂർത്തിയായി.
ചുവപ്പ് നിറം കാണിക്കുന്നത്
എന്തിനാണെന്നത്,
സെൻസർ നോഡ് കൂടുതൽ
വിവരങ്ങളെ കുറിച്ചല്ല
സൂചിപ്പിക്കുന്നത്.
നിങ്ങൾക്കറിയാവുന്ന
വിവിധ സ്റ്റാറ്റസ്

English: 
field conditions
so ah this is how the overall portal looks
like so now i will show you some of the plots
of the data that i received at our server
i have already shown you how the different
sensors are deployed in the field and these
are some of the results that we have received
some of the data that we have received with
respect to things such as the soil moisture
so this is the soil moisture data with respect
to the time so here actually we have some
hundred fifteen days data and as you can see
over here the soil moisture variation with
respect to the different phases of crop growth

Gujarati: 
સૂચક પરની શક્તિ,
રીસેટ સ્વિચ, બંધ
સ્વિચ અને વિવિધ
સેન્સર આ ચોક્કસ
કોરમાં ફીટ કરી શકાય
છે. તેથી, આ એ સેન્સર
બોર્ડ છે જે અમે ડિઝાઇન
કર્યો છે અને જેનો
કૃષિ હેતુઓ સ્માર્ટ
સિંચાઇ હેતુ માટે

Telugu: 
చూపిస్తాను .ఈ మొత్తం
పోర్టల్ పైన తెలిపిన
విధముగా కనిపిస్తుంది.
ఇప్పటి వరకు మనము
వేర్వేరు సెన్సార్లను
రంగంలో(field) ఎలా నియమించాము
అనేదాన్ని చూసాము
మరియు ఇవి మట్టి
లో ని తేమ ను సేకరిస్తాయి
. కాబట్టి , ఈ సమయంలో
మట్టి తేమ డేటా ఉంది.
కాబట్టి, ఇక్కడ వాస్తవానికి
మనము 115 రోజులు డేటాను
మాత్రమే కలిగి ఉన్నాము
మరియు మనము ఇక్కడ
వరి సీజన్లో వేర్వేరు
దశలకు సంబంధించి
నేల తేమ వైవిధ్యం
ను చూడవచ్చు . కాబట్టి

Bengali: 
এবং তাই আমাদের প্রতিটি
গ্রিডের মধ্যে একটি
সেন্সর (sensor) নোড (node)
আছে এবং এই সময়ে
আসলে আপনি কোন ফসল
দেখতে পাচ্ছেন না
কারণ ফসল শেষ হয়ে
গেছে এবং ফসল চাষ
করা হয়েছে, কিন্তু
এটি আমাদের যে পরিকাঠামো
আছে সুতরাং, এটি একটি
সৌর চালিত সেন্সর
(sensor) নোড (node) এবং যদি
আমরা এই নোড (node) এর
মধ্যে এখানে দেখুন
আমাদের এই নোড (node)
আছে আসলে আমাদের
দুটি ভিন্ন সেন্সর
(sensor) আছে - একটি মাটি
আর্দ্রতা (soil moisture)সেন্সর
(sensor) যা মূলত মাটিতে
কবর দেওয়া হয় এবং
অন্য সেন্সর (sensor) যা
জল স্তর সেন্সর (sensor)

Malayalam: 
സന്ദേശങ്ങളും ഈ പ്രത്യേക
പോർട്ടലിലൂടെയും
മുൻ ഡാറ്റയിലൂടെയും
നിങ്ങൾക്ക് ലഭ്യമാക്കാം,
അതിനാൽ നിങ്ങൾക്കറിയാം
ഈ വിനിമയത്തിന്റെ
വിദൂര മോണിറ്ററിംഗിൽ
ഒരു വ്യക്തിയുടെ
ലോകം ഇപ്പോഴും അവർ
നിങ്ങൾക്ക് ഫീൽഡ്
അവസ്ഥ നിരീക്ഷിക്കാൻ
കഴിയും.
അപ്പോൾ, പോർട്ടുഗൽ
പോർട്ടുഗീസ് എങ്ങനെയിരിക്കും
ഇപ്പോൾ, ഞാൻ എന്റെ
സെർവറിൽ എനിക്ക്
ലഭിച്ച ഡാറ്റയുടെ
ചില പ്ലോട്ടുകൾ കാണിച്ചു
തരാം.
വിവിധ സെൻസറുകളെ
വയലിൽ എങ്ങനെ വിന്യസിച്ചിട്ടുണ്ടെന്ന്
ഞാൻ നിങ്ങൾക്ക് കാണിച്ചുതന്നു,
മണ്ണിനെ പോലെയുള്ള
കാര്യങ്ങൾ സംബന്ധിച്ച്
നമുക്ക് ലഭിച്ചിട്ടുള്ള
ചില വിവരങ്ങൾ ഞങ്ങൾ
സ്വീകരിച്ചിട്ടുണ്ട്.
ഈർപ്പം.
അപ്പോൾ, ഇതു സമയത്തെ
സംബന്ധിച്ച് മണ്ണ്
ഈർപ്പത്തിന്റെ ഡാറ്റയാണ്.
അപ്പോൾ, ഇവിടെ യഥാക്രമം
115 ദിവസം കാണും.
ഇവിടെ നെല്ല് കാലത്ത്
വിളയുടെ വളർച്ചയുടെ
വിവിധ ഘട്ടങ്ങളെ
സംബന്ധിച്ചു മണ്ണിൻറെ
ഈർപ്പത്തിന്റെ വ്യത്യാസം
അടിസ്ഥാനമായി ഇവിടെ
വിശദീകരിച്ചിരിക്കുന്നു.

Gujarati: 
ઉપયોગ કરી શકાય છે.
ત્યારબાદ રિમોટ સર્વરમાં
તેની પાસે રીપોઝીટરી
છે જે આઇઓટી ગેટવેઝ
દ્વારા આ IoT નોડ્સના
વિવિધ સેન્સર્સમાંથી
તમામ ડેટા લઈ શકે
છે અને વેબ સર્વર
છે જે મૂળભૂત રીતે
ક્ષેત્ર ડેટાને દૂરસ્થ
રીતે સ્ટોર કરે છે;
તેનો અર્થ એ છે કે,
વેબ સર્વરને સામાન્ય
રીતે ક્ષેત્રમાંથી
દૂર રાખવામાં આવે
છે અને તે જ તે છે
જ્યાં ભવિષ્યમાં
ડેટાનો ઉપયોગ કરવામાં
આવે છે. અને મલ્ટી
યુઝર સર્વર્સ છે
જે મુખ્યત્વે ક્ષેત્રની
માહિતી એસએમએસ ટેક્નોલૉજીનો
ઉપયોગ કરીને ખેડૂતના
સેલને મોકલે છે, અને
ખેડૂતની પૂછપરછ અને
સંદેશાઓને અંકુશિત
કરે છે. તેથી, મૂળભૂતરૂપે
આ મૂળભૂત રીતે ખેડૂતોને
એસએમએસની મદદ અને
વિવિધ એસએમએસ મોકલવાના
વિવિધ ક્ષેત્રોની
સ્થિતિ વિશે જાણ
કરવામાં મદદ કરે
છે.
તો, હવે આપણે ફીલ્ડ
ડેમો પર જોશું અને
ત્યારબાદ હું તમને
આ ચોક્કસ સિસ્ટમના
કેટલાક અન્ય પાસાઓને
બતાવીશ.
તેથી, હવે હું તમને
ક્ષેત્ર પર લઇ જઇ
રહ્યો છું અને તમને
બતાવું છું કે કેવી
રીતે સિસ્ટમ તૈનાત
કરવામાં આવે છે અને
તે ક્ષેત્ર પર કેવી
રીતે કાર્ય કરે છે.
હવે હું તમને કૃષિ
ક્ષેત્રે ઇન્ટરનેટના
અમલીકરણમાં એક બતાવવા
જઈ રહ્યો છું. વધુ
ખાસ રીતે આ સિંચાઇના
હેતુ માટે છે કે કેવી
રીતે સિંચાઇ હેતુ
માટે આઇઓટીનો ઉપયોગ
કરી શકાય છે અને આપણે
શું કરી રહ્યા છીએ
તે વાસ્તવમાં તેએમએચઆરડી
અને આઇઆઇટી ખડગપુરના
પ્રાયોજિત પ્રોજેક્ટ
તરીકે પ્રયાણ કર્યું
હતું અને આઇઆઇટી
ખડગપુર ખાતે કૃષિ
અને ખાદ્ય ઇજનેરી
વિભાગના મારા સહયોગી

Telugu: 
, ఈ నిర్దిష్ట దశలో
వల్కల దశ(vegetative phase )అని
చూపబడింది మరియు
నేల తేమ వైవిధ్యం
ఈ ప్రత్యేక కధనంలో
చూపబడింది.
అప్పుడు మనం ప్రత్యుత్పత్తి
దశ ను కలిగి ఉన్నాము.
మరియు ఇప్పుడు మనము
పరిపక్వ దశ(maturity phase
) ను కలిగి ఉన్నాము
, ఇక్కడ దీని లో ఫీల్డ్
యొక్క నేల తేమ లో
ఉన్న కొన్ని వైవిధ్యాల
ను చూడగలము.
తదుపరిది నీటి స్థాయి.
కాబట్టి, వాస్తవానికి
పునరుత్పాదక దశలో
నీటి స్థాయి హెచ్చుతగ్గులు
చాలా పెద్దవి.
అందువల్ల, నీటి స్థాయి
క్షీణించినప్పుడు
క్షేత్రం సాగు చేస్తే,
మళ్లీ నీటి స్థాయి
పెరుగుతుంది.
మరలా అదే ప్రక్రియ
మొదలవుతుంది.
కాబట్టి, ఇది పునరుత్పత్తి
దశ లోని నీటి స్థాయి
వైవిధ్యాలు.
అప్పుడు ఈ ప్లాట్లు
(plot) ప్రధానంగా ప్యాకెట్
డెలివరీ (packet delivery) నిష్పత్తిని
(ratio) చూపిస్తాయి మరియు
ఇక్కడ చూడగలిగేటప్పుడు
ప్యాకెట్ డెలివరీ
ప్రక్రియ మరియంత
తక్కువగా యేమి లేదు.

Bengali: 
তাই, মাটির আর্দ্রতা
(soil moisture)সংবেদক মূলত
এই নামটি বলে যে এটি
মূলত মাটির আর্দ্রতার
(soil moisture)সেন্সর (sensor)
এবং জলের স্তরের
(water level )সেন্সর (sensor)
হল এই বিশেষ গ্রিডের
স্থিতিশীল জলের স্তর(water
level)। সুতরাং, এটি কি
এটি পরিমাপ।
এবং এই দুটি সেন্সর
(sensor) তথ্য (data )এই বিশেষ
নোড (node) পাঠানো হয়।
সুতরাং, এই নোড (node)
মূলত আপনি জিংবি
ক্ষমতা আছে জানি
এবং এই তথ্য (data )ক্লাস্টার
মাথা সঙ্গে জিগবি
যোগাযোগ আছে। সুতরাং,
এখানে আসলে কি আমরা
সেন্সর (sensor) স্থাপনার
জন্য একটি ক্লাস্টার
ভিত্তিক পদ্ধতির
ক্লাস্টার আর্কিটেকচার।
সুতরাং, এখানে যে
সমস্ত নোড (node)ের এই
নোড (node ) থেকে আমরা
তথ্য (data )পাঠিয়েছি
জিগবিয়ার মাধ্যমে
ক্লাস্টারের মাথায়
এবং ক্লাস্টার হেড
থেকে পাঠানো হয়েছে।
ক্লাস্টার হেড মূলত
দুটি ধরনের যোগাযোগের
জন্য সমর্থন করে,
একটি ইনটার ক্লাস্টার
(INTER CLUSTER)যোগাযোগের
জন্য জিগবি যোগাযোগ
(zigbee communication) এবং অন্যটি
হল ক্লাস্টার হেড
(cluster head) থেকে নিয়ন্ত্রণ
কক্ষ (control room) জিপিআরএস
যোগাযোগে (GPRS communication)
যেখানে সার্ভার এর
আরও বিশ্লেষণের জন্য
রয়েছে। তাই, আমাদের
এই স্থাপত্য (architecture)টি
আছে এবং তাই আপনি
যে সেন্সর (sensor) তথ্যগুলি
জানেন তা এই দুটি
সেন্সর (sensor) থেকে বোঝা
যাচ্ছে - একটি হল মাটির
আর্দ্রতা (soil moisture)এবং
জলের স্তরের (water level)সেন্সর
(sensor) এবং যদি জলের
স্তর (water level)নিচে নেমে
যায় বা মাটির আর্দ্রতা
(soil moisture) না থাকে যথেষ্ট
যথেষ্ট সুতরাং, স্বয়ংক্রিয়
(automated )ভাবে আমাদের
সোলানোইড ভালভ (solenoid
valve) চালু করা হবে, তাই
এখানে এক solenoid ভালভ
যে আপনি আপনার বাম
এখানে সোলানোইড ভালভ
(solenoid valve) আপনা রা দেখতে
পারেন এবং একইভাবে
প্রতিটি ক্ষেত্র
তে (field) অন্য সোলানোইড
ভালভ (solenoid valve) আছে।
সুতরাং, সেখানে অন্য
solenoid ভালভ আছে।
তাই, কী ঘটতে যাচ্ছে
তা হল পাম্প (pump)যা
আপনি জানেন যে এটি
চালু করা হচ্ছে এবং
চালু হবে এবং আপনি
জানেন যে এই ক্ষেত্র
(field) গুলি সেগুলি দ্বারা
সেচ (irrigation) করা যাচ্ছে
solenoid ভালভ সুতরাং,
আপনি এখানে দেখতে
পারেন ভালভটি এখনই
চালু করা হয়েছে
এবং ক্ষেত্র (field) টি
জল দিয়ে সেচের (irrigation)
ব্যবস্থা করা হচ্ছে
কারণ সেখানে কোন
পর্যায়ে পর্যাপ্ত
জল নেই।
তাই, আমি আপনাকে বলেছিলাম
যে আমরা আসলে সেন্সর
(sensor) স্থাপনার (deploy)
জন্য ক্লাস্টার ভিত্তিক
স্থাপত্য (cluster based architecture)
অনুসরণ করছি তাই
এখানে আমাদের একটি
ক্লাস্টার হেডার
(cluster head) আছে এই ক্লাস্টার
হেডটি (cluster head) এই জিগবি
যোগাযোগ (Zigbee communication)
উভয়ের জন্যই সমর্থন
করে যা এটির মাধ্যমে
ঘটছে বিশেষ নোড (node)
এবং এই বিশেষ বোর্ডের

Malayalam: 
അതിനാൽ, ഈ പ്രത്യേക
ഘട്ടം തുമ്പിലുള്ള
ഘടനയായി കാണിക്കുന്നു.
മണ്ണിന്റെ ഈർപ്പം
ഈ പ്രത്യേകതയിൽ കാണിക്കുന്നു.
പിന്നെ മണ്ണിൻറെ
ഈർപ്പം ഇപ്രകാരമുള്ള
വ്യതിയാനം സൃഷ്ടിക്കുന്നുണ്ട്.
അപ്പോൾ നമുക്ക് മെച്യൂരിറ്റി
ഘട്ടം ഉണ്ടാകും.
കാലാവധിയിലെ മണ്ണിന്റെ
ഈർപ്പത്തിൽ ചില വ്യതിയാനങ്ങൾ
ഉണ്ടെന്ന് കാണാം.
അടുത്തത് ജലനിരപ്പ്.
അതുകൊണ്ട്, ഇവിടെ
ജലനിരപ്പ് വ്യതിയാനങ്ങളുണ്ടെന്ന്
വനീയ ഘട്ടത്തിൽ നമുക്ക്
കാണാൻ കഴിയും, പക്ഷേ
അത് വളരെയധികം അല്ല,
പ്രത്യുൽപാദന ഘട്ടത്തിൽ
ജലനിരപ്പ് വ്യതിയാനങ്ങൾ
വളരെ വലുതാണ്.
അതിനാൽ, ജലനിരപ്പ്
താഴ്ന്നപ്പോൾ വെള്ളം
ജലസേചനം നടത്തുമ്പോൾ
വീണ്ടും ജലനിരപ്പ്
ഉയരുന്നു, വീണ്ടും
താഴുകയും അങ്ങനെ
പോകുന്നു.
അതിനാൽ, ഇത് പ്രത്യുൽപ്പാദന
ഘടനയാണ്, തുടർന്ന്
ജലനിരപ്പ് വ്യത്യാസങ്ങൾ
കാണിച്ചിരിക്കുന്ന
കാലാവധി പൂർത്തിയാകുന്ന
ഘട്ടം ഞങ്ങൾ കാണുന്നു.
ഈ പ്ലാറ്റ്ഫോം അടിസ്ഥാനപരമായി
പാക്കറ്റ് ഡെലിവറി
അനുപാതം കാണിക്കുന്നു.

English: 
during the paddy season is basically plotted
over here so this particular phase is shown
to be the vegetative phase and the soil moisture
variation is shown in this particular plot
then we have the reproductive phase where
the soil moisture varies like this and then
we have the maturity phase and in the maturity
phase as you can see that there are some variations
in the soil moisture ah of the field
the next one is the water level so here actually
we can see that in the vegetative phase the
water level fluctuations are there but it
is not too much but then during the reproductive
phase the water level fluctuations are quite
so whenever the water level goes down the
field is irrigated again water level goes
up again it goes down and so on and so forth
so this is the reproductive phase and then
we have the maturity phase where the water
level variations are has shown and then this

English: 
plot basically shows the packet delivery ratio
and ah as we can see over here the packet
delivery is not so bad you know it is between
like ninety percent to hundred percent there
is some packet drop that has happened and
these packet drops could be due to different
reasons such as different presence of different
noises interference and so on due to things
such as air flow temperature ah solar radiation
rainfall and so on so these packet drops are
quite common but as you can see that mostly
the system overall is quite reliable
thank you

Bengali: 
মাধ্যমে জিপিআরএস
যোগাযোগের (GPRS communication)
জন্যও সমর্থন রয়েছে।
এবং অতিরিক্তভাবে
আমরা বিভিন্ন relays
আছে হিসাবে আপনি
এখানে পাম্প (pump)চালু
করার জন্য দেখতে
পারেন যদি ক্ষেত্র
(field) এর সেচ প্রয়োজন
হয় এবং এই অ্যান্টেনার
(antenna) মাধ্যমে মূলত
এই যোগাযোগ বাইরের
বিশ্বের (external world) সঙ্গে
ঘটছে সুতরাং, এই কিভাবে
ক্লাস্টার হেড(cluster
head)এর মত দেখায়
তাই, এখন আমি আপনাকে
এই এগ্রিসেন (AgriSens)
সিস্টেমের জন্য ওয়েব
ইন্টারফেস (web interface)
দেখাব। তাই, আমি আগেই
উল্লেখ করেছিলাম
যে এটি ইউ আর এল এগ্রিসিস
ডট আই আই টি কে জি
পি ডট এ সি ডট ইন (URL
agrisys.iitkgp.ac.in) এর মাধ্যমে
এক্সেসযোগ্য (accessible)
এবং আমরা এই নির্দিষ্ট
সিস্টেমটি দুটি অবস্থানে
স্থাপন (deployed) করেছি
আইআইটি খড়গপুর এবং
অন্যটি দূরবর্তী
(remote) স্থানে বিদাপুরের
নিকটবর্তী গ্রাম
সুতরাং, এটি সর্বত্র
আপনি ওয়েব ইন্টারফেস
জানেন এবং হিসাবে
আমরা এখানে দেখতে
পারেন যে এটি জলের
স্তরের সেন্সর (sensor)
সম্পর্কে অনেক তথ্য
(data )দেয় যে আমরা স্থাপিত
(deploy) সেন্সর (sensor) নোড
(node) তৈরী করেছি আপনি
আরও পড়তে পারেন
আমাদের বেতার সেন্সর
(wireless sensor) নেটওয়ার্ক
আছে এবং সেখানে এসএমএস
(SMS) পরিষেবা (service) যা
কৃষকদের দেওয়া হয়।
তাই, এই সাইটের মাধ্যমে
আরো তথ্য (data)পাওয়া
যায় এবং এই বিভিন্ন
লিঙ্কগুলির মাধ্যমে
যেসব লোকেরা জড়িত
তাদের সাথে আমি ইতিমধ্যেই
আপনাকে উল্লেখ করেছি
যে এটি হচ্ছে আমাদের
গ্রুপ সিএসইর বিভাগের
স্বান গ্রুপ (swan group)
কৃষি ও খাদ্যসহ আইআইটি,
খড়গপুর এ ইঞ্জিনিয়ারিং
বিভাগ (agriculture and food engineering
department at IIT, Kharagpur) ।
তাই, এখানে আপনি এই
নির্দিষ্ট পোর্টাল
(portal) মাধ্যমে আমরা
ক্ষেত্র (field) এর অবস্থার
এবং আপনার বিভিন্ন
সেন্সর (sensor) আছে বিভিন্ন
স্বাস্থ্য পর্যবেক্ষণ
(health monitoring) সম্পর্কে
আপনি জানতে পারেন
।
সুতরাং, যদি আপনি
লগইন শংসাপত্রগুলি
(login credentials) ব্যবহার
করে লগইন করেন তবে
মূলত এটি একটি ক্ষেত্র
(field) থেকে নোড (node) এর
অবস্থা যা আমরা দেখতে
পাচ্ছি যে এটি বিভিন্ন
অবস্থা এবং এইগুলি
বিভিন্ন অবস্থা যা
আমি উল্লেখ (mentioned) করেছি
।
সুতরাং, আমাদের লাল
রঙের অর্থ আছে যে
আসলে আসলে ঘড়ি ইতিমধ্যেই
কাটা হয়েছে, এটি
একটি ধান (peddy), ধান
(peddy) ক্ষেত্র ( field) যেখানে
সেন্সর (sensor) নোড (node)
স্থাপন করা হয়।
সুতরাং, ফসল ইতিমধ্যেই
কাটা হয়েছে তাই
এটি লাল রঙ দেখানো
হচ্ছে যেটা বোঝায়
যে সেন্সর (sensor) নোড
(node) কোনও তথ্য (data)অনুভব
করছে না। এবং এছাড়াও
বিভিন্ন অবস্থা বার্তাগুলি
আপনি এই বিশেষ পোর্টালএর
মাধ্যমে পেতে পারেন
এবং পূর্ববর্তী তথ্য
(data)এছাড়াও এই মাধ্যমে
দেখতে পারেন এবং,
তাই এই মূলত আপনি
জানেন ক্ষেত্র (field)
ের দূরবর্তী (remote) পর্যবেক্ষণ
আপনি একটি এমনকি
যদি অন্য অংশ বিশ্বের
এখনও তারা আপনি ক্ষেত্র
( field) এর অবস্থার নিরীক্ষণ
(monitor) করতে সক্ষম হবে।
সুতরাং, এই সামগ্রিক
পোর্টালটি কেমন দেখায়
তাই, এখন, আমি আপনাকে
আমাদের সার্ভারে

Malayalam: 
നമുക്ക് ഇവിടെ കാണാൻ
കഴിയുന്നതുപോലെ,
പാക്കറ്റ് ഡെലിവറി
വളരെ മോശമായിരുന്നില്ല,
90% മുതൽ 100% വരെ അത്
നിങ്ങൾക്ക് അറിയാം.
ചില പാക്കറ്റ് ഡ്രോപ്പ്
സംഭവിച്ചു.
വ്യത്യസ്തമായ ശബ്ദങ്ങൾ
ഇടപെടലിനുള്ള വ്യത്യസ്തമായ
കാരണങ്ങൾ കൊണ്ടാണ്
ഈ പാക്കറ്റ് ഡ്രോപ്പുകൾ
ഉണ്ടാകുന്നത്, കാരണം
എയർ ഫ്ളോ, ടെമ്പറേച്ചർ,
സോളാർ റേഡിയേഷൻ മഴ
തുടങ്ങിയവ പോലുള്ള
കാര്യങ്ങളുണ്ട്.
അതിനാൽ, ഈ പാക്കറ്റ്
ഡ്രോപ്പുകൾ വളരെ
സാധാരണമാണ്, പക്ഷേ
മിക്കപ്പോഴും സിസ്റ്റം
മൊത്തത്തിൽ വിശ്വസനീയമാണ്.
നന്ദി.

Telugu: 
అది 90 శాతం నుండి
100 శాతం వరకు ఉంటుంది.
అక్కడ కొంత ప్యాకెట్
డ్రాప్ (packet drop) కూడా
ఉంటుంది మరియు ఈ
ప్యాకెట్ డ్రాప్
వేర్వేరు శబ్దాలు
(noise) మరియు వేర్వేరు
కారణాల కారణంగా ఉండవచ్చును.
లేదా వాయు ప్రవాహం,
ఉష్ణోగ్రత, సౌర వికిరణ
వర్షపాతం మరియు మొదలైన
వాటి వలన కూడా ఉంటుంది.
కాబట్టి, ఈ ప్యాకెట్
డ్రాప్ చాలా సాధారణం,
కాని ఇక్కడ తెలిపిన
వ్యవస్థలో ని ఎక్కువ
భాగము చాలా విశ్వసనీయమైనదని
చెప్పవచ్చును.
ధన్యవాదాలు.

Gujarati: 
પ્રોફેસર એન.એસ. રઘુવંશી
સાથે વિકસાવવામાં
આવી હતી. તેથી, અહીં
તમે શું જોશો તે કૃષિ
ક્ષેત્ર છે. તેથી,
આ ક્ષેત્રમાં, આ ક્ષેત્રને
6 બાય 5 ગ્રિડમાં વિભાજીત
કરવામાં આવે છે અને
આમાંથી દરેક ગ્રિડ
ઘટકો 3 થી 3 ચોરસ મીટરના
કદ ધરાવે છે.
અને તેથી આ દરેક ગ્રીડમાં
આપણી પાસે શું છે
તે સેન્સર નોડ છે
અને આ બિંદુ પર ખરેખર
તમે કોઈ પાક જોઇ શકતા
નથી કારણ કે પાકની
ઋતુ જતી રહી છે અને
પાક લણણી કરવામાં
આવ્યા છે, પરંતુ આ
અમારી પાસે ઇન્ફ્રાસ્ટ્રક્ચર
છે તેથી, આ એક સૌર
સંચાલિત સેન્સર નોડ
છે અને જો આપણે આ નોડમાં
અહીં છીએ તો આ નોડ
દ્વારા આપણે ખરેખર
બે અલગ અલગ સેન્સર
ધરાવીએ છીએ - એક ભૂમિ
ભેજ સંવેદક છે જે
મૂળભૂત રીતે જમીનમાં
દફનાવવામાં આવે છે
અને ત્યાં એક બીજું
સેન્સર છે જે પાણી
છે. લેવલ સેન્સર તેથી,
જમીનનું ભેજ સંવેદક
મૂળભૂત રીતે આ નામ
કહે છે કે તે મૂળભૂત
જમીનની ભેજને સેન્સર
કરે છે અને પાણીનું
સ્તર સંવેદનું આ
ચોક્કસ ગ્રીડમાં
સ્થિર પાણીનું સ્તર
કેટલી છે. તેથી, આ
તે શું પગલાં છે
અને આ બે સેન્સર ડેટા
આ ચોક્કસ નોડ પર મોકલવામાં
આવે છે. તેથી, આ નોડ
મૂળભૂત રીતે તમને
ખબર છે કે તે ઝિગ્બી
શક્તિ છે અને આ ડેટા
ક્લસ્ટર હેડ સાથે
ઝિગ્બી સંચાર છે.
તેથી, અહીં વાસ્તવમાં
આપણે જે ઉપયોગ કરીએ
છીએ તે સેન્સર જમાવટ
માટે ક્લસ્ટર આધારિત
અભિગમ ક્લસ્ટર આર્કીટેક્ચર
છે. તેથી, દરેક નોડથી
આ નોડમાંથી આપણી
પાસે ડેટા છે, ઝિગ્બી
દ્વારા ક્લસ્ટર હેડ
અને ક્લસ્ટર હેડથી
મોકલવામાં આવે છે.
ક્લસ્ટર હેડ મૂળભૂત
રીતે બે પ્રકારનાં
સંદેશાવ્યવહારને
આધાર આપે છે, ઇન્ટ્રા
ક્લસ્ટર કમ્યુનિકેશન
માટે ઝિગ્બી સંચાર
છે અને અન્ય એક એ ક્લસ્ટર
હેડથી નિયંત્રણ રૂમમાં
GPRS સંચાર છે જ્યાં
સર્વર વધુ વિશ્લેષણ
માટે છે. તેથી, આ અમારી
પાસે આર્કીટેક્ચર
છે અને તેથી તમે જાણો
છો તે સેન્સર ડેટા
આ બે સેન્સર્સમાંથી
અર્થમાં છે - એક ભૂમિ
ભેજ અને પાણીનું
સ્તર સંવેદનું છે
અને જો પાણીનું સ્તર
ઘટી ગયું છે અથવા
જમીનની ભેજ ન થઈ છે
પર્યાપ્ત પર્યાપ્ત
તેથી, આપણી પાસે આપણી
પાસે વાલ્વ્સ સોલેનોઇડ
વાલ્વ છે અને સોલેનોઇડ
વાલ્વ ચાલુ કરવામાં
આવશે, તેથી અહીં એક
સોલેનોઇડ વાલ્વ છે
જે તમે અહીં મારા
ડાબા પર સોલેનોઇડ
વાલ્વ જોઈ શકો છો
અને તેવી જ રીતે પ્રત્યેક
ફીલ્ડમાં અન્ય સોલેનોઇડ
વાલ્વ છે. તેથી, ત્યાં
એક અન્ય solenoid વાલ્વ
છે.
તેથી, શું થાય છે તે
પંપ છે જે તમને ખબર
છે કે તે ચાલુ થઈ રહ્યું
છે તે ચાલુ થશે અને
પાણી તમને જાણ થશે
કે આ ફિલ્ડ તે દ્વારા
સિંચાઈ કરી રહ્યું
છે સોલેનોઇડ વાલ્વ
તેથી, તમે અહીં જોઈ
શકો છો કે વાલ્વ હમણાં
જ ચાલુ થયો છે અને
આ ક્ષેત્રમાં પાણીથી
સિંચાઈ કરી શકાય
છે કારણ કે ત્યાં
કોઈ નથી, મે ક્ષેત્રમાં
પૂરતું પાણી નથી.
તેથી, મેં તમને કહ્યું
છે કે અમે ખરેખર સેન્સરની
જમાવટ માટે ક્લસ્ટર
આધારિત આર્કિટેક્ચરને
અનુસરી રહ્યા છીએ,

Gujarati: 
તેથી અહીં અમારી
પાસે ક્લસ્ટર હેડ
છે, આ ક્લસ્ટર હેડ
બંને ઝિગ્બી સંચાર
માટે આધાર ધરાવે
છે જે આ દ્વારા થઈ
રહ્યું છે ચોક્કસ
નોડ અને ત્યાં પણ
આ ચોક્કસ બોર્ડ દ્વારા
GPRS સંચાર માટે આધાર
છે. અને વધુમાં આપણી
પાસે વિવિધ રીલે
છે કારણ કે તમે પંપને
ચાલુ કરવા માટે અહીં
જોઈ શકો છો જો તે ફિલ્ડને
સિંચાઈ કરવા માટે
જરૂરી હોય અને તેથી
આ એન્ટેના દ્વારા
મૂળભૂત રીતે આ સંદેશા
બાહ્ય વિશ્વ સાથે
થઈ રહ્યો છે. તેથી,
આ રીતે ક્લસ્ટરનું
મુખ્ય દેખાય છે.
તો, હવે હું તમને આ
એરિસેન્સ સિસ્ટમ
માટે વેબ ઇન્ટરફેસ
બતાવીશ.
તેથી, જેમ મેં અગાઉ
તમારો ઉલ્લેખ કર્યો
છે તે URL agrisys.iitkgp.ac.in દ્વારા
સુલભ છે અને અમે આ
ચોક્કસ પ્રણાલીમાં
બે સ્થળોએ
આઇઆઇટી ખડગપુર અને
બીજા એક દૂરના ભાગમાં
ઉપયોગ કર્યો છે. બિદપુર
નજીક ગામ તેથી, આ એકંદરે
તમે વેબ ઈન્ટરફેસ
જાણો છો અને આપણે
અહીં જોઈ શકીએ છીએ
કે તે જળ સ્તરનાં
સેન્સર વિશે ઘણું
માહિતી આપે છે કે
જેને તમે વધુ વાંચી
શકો છો તે જમાવવામાં
આવેલા સેન્સર નોડો
વિકસાવી છે, ત્યાં
વાયરલેસ સેન્સર નેટવર્ક
છે અને એસએમએસ સેવા
જે ખેડૂતોને આપવામાં
આવે છે. આથી, આ સાઇટ
દ્વારા વધુ માહિતી
ઉપલબ્ધ છે અને આ જુદાં
જુદાં લિંક્સ દ્વારા
જે લોકો સામેલ છે
તેમાં મેં પહેલેથી
જ તમારો ઉલ્લેખ કર્યો
છે કે તે થઈ રહ્યું
છે તે અમારા જૂથ દ્વારા
સી.એસ.ઇ.ના સ્વાન જૂથ
દ્વારા કૃષિ અને
ખોરાક સાથે કરવામાં
આવ્યો છે. આઇઆઇટી,
ખડગપુર ખાતે એન્જિનિયરિંગ
ડિપાર્ટમેન્ટ
તો, અહીં તમે જાણો
છો કે આ ચોક્કસ પોર્ટલ
દ્વારા આપણે ક્ષેત્ર
શરતો અને જુદા જુદા
સેન્સર્સને જોઈ શકીએ
છીએ કે જેમાં વિવિધ
સેન્સર પરના વિવિધ
આરોગ્ય દેખરેખને
તમે જાણતા હશો.
તો, જો તમે લોગીન સર્ટિફિકેટનો
ઉપયોગ કરીને લૉગિન
થઈ જાવ, તો આ મૂળ ક્ષેત્રોમાંની
એક નોડ સ્થિતિ છે
કારણ કે આપણે જોઈ
શકીએ છીએ કે આ અલગ
સ્થિતિ છે જે મેં
ઉલ્લેખ કર્યો છે
અને આ અલગ સ્થિતિ
છે મેં ઉલ્લેખ કર્યો
છે
તેથી, આપણી પાસે લાલ
રંગ છે જેનો અર્થ
થાય છે કે હવે વાસ્તવમાં
ઘડિયાળ પહેલેથી જ
કાપવામાં આવી છે
તે એક ડાંગર, ડાંગરનો
ખેતર હતો જ્યાં સેન્સર
ગાંઠો તૈનાત કરવામાં
આવે છે. તેથી, પાક
પહેલેથી જ લણણી કરવામાં
આવી છે તેથી તે લાલ
રંગ બતાવવાનું અર્થ
છે કે સેન્સર નોડ
કોઈ વધુ ડેટાને સંવેદનશીલ
નથી. અને તે પણ જુદા
જુદા સ્ટેટસ મેસેજ
જે તમે જાણો છો તે
આ ચોક્કસ પોર્ટલ
દ્વારા મેળવી શકાય
છે અને અગાઉના ડેટા
પણ આ દ્વારા જોઈ શકે
છે, અને આ મૂળભૂત રીતે
તમે જાણતા હોવ તે
ક્ષેત્રના દૂરસ્થ
મોનીટરીંગમાં તમને
મદદ કરે છે, જો તમે
કોઈ અન્ય ભાગમાં
હોય તો પણ વિશ્વ હજુ
પણ તેઓ તમને ક્ષેત્ર
શરતો મોનીટર કરવા
માટે સક્ષમ હશે. તેથી,
આ એકંદરે પોર્ટલ
જેવો દેખાય છે. તો,
હવે, હું તમને અમારા

Bengali: 
প্রাপ্ত ডেটাগুলির
কিছু প্লট দেখাবো।
আমি ইতিমধ্যে আপনাকে
দেখিয়েছি কিভাবে
ক্ষেত্র (field) এর বিভিন্ন
সেন্সর (sensor)গুলি নিয়োজিত
করা হয় এবং এইগুলির
কিছু ফলাফল আমরা
মাটির মতো বিষয়গুলির
সাথে আমরা কিছু তথ্য
(data)পেয়েছি যা আমরা
পেয়েছি আর্দ্রতা(moisture)।
সুতরাং, এই সময় সম্পর্কে
মৃত্তিকা আর্দ্রতা
(soil moisture)তথ্য। তাই,
এখানে আসলে আমাদের
115 দিনের তথ্য (data )আছে
এবং এখানে আপনি ধান
(peddy) এর ঋতুতে ফসলের
বৃদ্ধির বিভিন্ন
পর্যায়ে মৃত্তিকার
আর্দ্রতা (soil moisture)পরিবর্তনের
বিষয়টি এখানে দেখতে
পারেন মূলত এখানের
উপর অঙ্কিত। তাই,
এই নির্দিষ্ট ফেজটি
উদ্ভিজ্য ফেজে (vegetative
phase) হিসাবে দেখানো
হয়েছে এবং এই বিশেষ
প্লোটে মাটির আর্দ্রতা
(soil moisture)বৈচিত্র দেখানো
হয়েছে। তারপর আমরা
প্রজনন ফেজ আছে যেখানে
মাটি আর্দ্রতা (soil
moisture) এই মত পরিবর্তিত
হয় এবং তারপর আমরা
পরিপক্কতা ফেজ এবং
পরিপক্কতা পর্যায়ে
আছে যেমন আপনি দেখতে
পারেন ক্ষেত্র (field)
এর মাটির আর্দ্রতার
(soil moisture) কিছু বৈচিত্র
(variations )আছে।
পরেরটি হচ্ছে জলের
স্তর (water level)। সুতরাং,
এখানে আসলে আমরা
দেখতে পারি উদ্ভিজ্য
ফেজে (vegetative phase) জল স্তর
এর বিভিন্নতা (fluctuations)
আছে, কিন্তু এটি অত্যধিক
নয়, তবে পরিপক্কতার
পর্যায়ে (reproductive phase)
জল স্তরের (water level) বিভিন্নতা
(fluctuations) খুবই বিশাল।
তাই, যখনই জলের স্তরটি
(water level) নিচে নেমে (water
level) যায় তখন সেচ (irrigation)
((water level)) দেওয়া হয়,
আবার জলের স্তর বেড়ে
যায়, আবার তাও নিচে
নেমে যায় এবং এতটুকুও
যায় না। সুতরাং,
এই পরিপক্কতার পর্যায়ে
(reproductive phase) এবং তারপর
আমরা পরিপক্কতার
পর্যায়ে (reproductive phase)
আছে যেখানে জল স্তর
বৈচিত্র (water level variations)
দেখা যায় ।
এবং তারপর এই প্লট
(plot) মূলত প্যাকেট
প্রদান এর অনুপাত
(packet delivery ratio) দেখায়
এবং আমরা এখানে দেখতে
পাচ্ছি যে পকেটের
বিতরণটি (packet delivery) এত
খারাপ নয় যে আপনি
জানেন এটা ৯০শতাংশ
থেকে ১০০ শতাংশের
মতো । কিছু প্যাকেট
ড্রপ (packet drop) আছে যা
ঘটেছে এবং এই প্যাকেট
ড্রপ (packet drop) বিভিন্ন
কারণে যেমন বিভিন্ন
শব্দ হস্তক্ষেপ (noises
interference) বিভিন্ন উপস্থিতি
এবং অন্যান্য কারণে
যেমন বায়ু প্রবাহ,
তাপমাত্রা, সৌর বিকিরণ
বৃষ্টি (air flow, temperature,
solar radiation rainfall) এবং যেমন
উপরোক্ত কারণে এবং
আরো কিছু কারণেহতে
পারে। সুতরাং, এই
প্যাকেট ড্রপ (packet
drop) বেশ সাধারণ, কিন্তু
আপনি দেখতে পারেন
যে বেশিরভাগই সিস্টেম
সামগ্রিক বেশ নির্ভরযোগ্য
(quite reliable)। ধন্যবাদ.

Gujarati: 
સર્વર પર પ્રાપ્ત
કરેલ ડેટાના અમુક
પ્લોટ્સ બતાવીશ.
મેં તમને પહેલાથી
જ બતાવ્યું છે કે
ક્ષેત્રમાં કેટલા
અલગ સેન્સર તૈનાત
કરવામાં આવ્યા છે
અને આ કેટલાંક પરિણામો
છે કે જે માલ જેવા
વસ્તુઓ વિશે અમે
પ્રાપ્ત કરેલી કેટલીક
માહિતી પ્રાપ્ત થઈ
છે ભેજ. તેથી, આ સમયના
સંદર્ભમાં માટી ભેજ
માહિતી છે. તેથી, અહીં
વાસ્તવમાં અમારી
પાસે 115 દિવસની માહિતી
છે અને તમે અહીં ડાંગરના
સિઝન દરમિયાન પાકના
વિકાસના વિવિધ તબક્કાઓના
સંદર્ભમાં માટીના
ભેજને જુદાં જુદાં
જુદાં જુદાં જુદાં
જુદાં હોય છે. તેથી,
આ ચોક્કસ તબક્કો
વનસ્પતિના તબક્કા
તરીકે દર્શાવવામાં
આવે છે અને આ ચોક્કસ
પ્લોટમાં જમીનનું
ભેજ વિવિધતા દર્શાવે
છે. પછી આપણી પાસે
પ્રજનન તબક્કો છે
જ્યાં માટી ભેજ આની
જેમ બદલાય છે અને
પછી અમારી પાસે પરિપક્વતા
તબક્કા અને પરિપક્વતા
તબક્કામાં છે કારણ
કે તમે જોઈ શકો છો
કે આ ક્ષેત્રની ભૂમિ
ભેજમાં કેટલીક ભિન્નતા
છે.
આગળનું પાણીનું સ્તર
છે. તેથી, અહીં વાસ્તવમાં
આપણે જોઈ શકીએ છીએ
કે વનસ્પતિ તબક્કામાં
પાણીનું સ્તર વધઘટ
છે, પરંતુ તે ખૂબ નથી,
પરંતુ પછી પ્રજનન
તબક્કા દરમિયાન પાણીનું
સ્તર વધઘટ ખૂબ વિશાળ
છે. તેથી, જયારે જળનું
સ્તર નીચે આવે છે
ત્યારે સિંચાઈ થાય
છે, ફરીથી પાણીનું
સ્તર વધે છે, ફરી તે
નીચે જાય છે અને એટલું
જ નહીં આગળ તેથી, આ
પ્રજનન તબક્કો છે
અને પછી અમારી પાસે
પરિપક્વતા તબક્કા
છે જ્યાં જળ સ્તરની
વિવિધતા બતાવવામાં
આવી છે.
અને પછી આ પ્લોટ મૂળભૂત
રીતે પેકેટ ડિલિવરી
રેશિયો બતાવે છે
અને આપણે અહીં જોઈ
શકીએ છીએ કે પેકેટ
ડિલિવરી એટલી ખરાબ
નથી કે તમે જાણો છો
કે તે 90 ટકાથી 100 ટકા
જેટલું છે. ત્યાં
કેટલાક પેકેટ ડ્રોપ
છે અને આ પેકેટમાં
ડ્રોપ્સ અલગ અલગ
કારણોને કારણે હોઈ
શકે છે, જેમ કે વિવિધ
અવાજોની દખલગીરીની
હાજરી, જેમ કે હવાના
પ્રવાહ, તાપમાન, સૌર
કિરણોત્સર્ગની વરસાદ
વગેરે જેવી બાબતો.
તેથી, આ પેકેટ ટીપાં
એકદમ સામાન્ય છે,
પરંતુ તમે જોઈ શકો
છો કે મોટે ભાગે સિસ્ટમ
એકંદરે ખૂબ વિશ્વસનીય
છે. આભાર.
