
Malayalam: 
ഇന്റെർനെറ് ഓഫ് തിങ്ങ്സ്
(IOT) റാസ്പ്ബെറി പി
- II യുടെ കൂടെ നടപ്പിലാക്കുക.
റാസ്ബെറി പൈ ഉപയോഗിച്ചുള്ള
IOT ന്റെ രണ്ടാം ഭാഗത്തിന്റെ
ഈ പ്രഭാഷണത്തിൽ റാസ്പ്ബെറി
പൈയിൽ ഒരു ഡിഎച്ച്ടി
(DHT) സെൻസർ കൂട്ടിച്ചേർത്ത
മുമ്പ് ഞങ്ങൾ ചർച്ച
ചെയ്ത അതേ സംയോജനം
ചർച്ച ചെയ്യാൻ പോകുന്നു.
അതിനുപുറമെ ചില നെറ്റ്വ
ർക്കിങ് ഘടകങ്ങൾ
ഉൾപ്പെടുത്താൻ ഞങ്ങൾ
പോകും.
അതിലൂടെ ഒരു പൈത്തൺ
സ്ക്രിപ്റ്റിങ്

Gujarati: 
નમસ્તે, આ લેક્ચર
ના બીજા ભાગ માં અમે
રાશબરી પાઇ (raspberry pi)
સાથે આઇઓટી (IoT) નું
અમલીકરણ ની ચર્ચા
કરવા જય રહ્યા છીએ
જે અગાઉ ચર્ચા કરી
હતી કે રાશબરી પાઇ
(raspberry pi) સાથેના DHT સેન્સરનું
સંકલન છે. વધુમાં,

Telugu: 
రాస్ప్బెర్రీ పై
తో IOT అమలులో రెండవ
భాగం, ఈ ఉపన్యాసంలో
మనము గతంలో చర్చించిన
అదే సమన్వయ(integration)
చేయటాని గురుంచి
చర్చించుదమ్ ,ఆ రాస్బెర్రి
పై (raspberry pi )తో ఒక DHT సెన్సార్(sensor)
ఏకీకరణ ఉంది. అదనంగా
మనం కొంత నెట్ వర్కింగ్
కాంపోనెంట్లను(networking
component) చేర్చబోతున్నాము,
అది క్లయింట్ (client)
కోసం ఒక క్లయింట్
కోసం ఒక పైథాన్ స్క్రిప్టింగ్ను
అమలు చేయబోతున్నాం,
ఒక క్లయింట్ వలె
రిమోట్ డెస్క్టాప్లో
పనిచేసే ఒక రిమోట్
డెస్క్టాప్పై(desktop

English: 
hai in this lecture of the second part of
implementation of iot with raspberry pi we
are going to discuss the same integration
we discussed previously that is integration
of a dht sensor with raspberry pi additionally
we are going to include some networking components
to it that is we are going to implement a
python scripting for client making the raspberry
pi behave as a client whereas on the remote
desktop which will act as a server will use
another python script which will act as a
udp server so in this way we are going to

Bengali: 
এই আলোচনায় আমরা
আইত্তটির(IOT) বাস্তবায়নের
দ্বিতীয় অংশের সাথে
রাস্পবেরি পাই(raspberry
pi) এর বাস্তবায়নের
পূর্বে আলোচ্য একই
অনুভূমিক সংযু্ক্তিকরণ
(অনুভূমিক সংযু্ক্তিকরণ
(integration) ) নিয়ে আলোচনা
করতে যাচ্ছি সেটা
হল রাস্পবেরী পাই(raspberry
pi) সঙ্গে একটি ডি এইচ
টি (DHT) সেন্সার(sensor)
এর অনুভূমিক সংযু্ক্তিকরণ
(অনুভূমিক সংযু্ক্তিকরণ
(integration) )। উপরন্তু আমরা
এটার সাথে কিছু যৌথ
সম্প্রচার ব্যবস্থা

Malayalam: 
(python scripting) നടപ്പിലാക്കാൻ
പോകുന്നത് ക്ലയന്റിനെ
റാസ്പ്ബെറി പൈ ഉപയോഗിക്കും,
സെർവറിന്റെ റിമോട്ട്
ഡസ്ക്ടോപ്പിൽ മറ്റൊരു
പൈത്തൺ സ്ക്രിപ്റ്റ്
ഉപയോഗിക്കും.
ഒരു UDP സെർവറായി പ്രവർത്തിക്കുക.
അതിനാല്, നാം റാസ്ബെറി
പി പെയര് ക്ലയന്റും
ഡെസ്ക്ടോപ്പ് അധിഷ്ഠിത
സെര്വറുവും തമ്മിലുള്ള
ഡേറ്റാഗ്രാം (datagram)
അടിസ്ഥാനത്തിലുള്ള
ബന്ധം സൃഷ്ടിക്കും.
അതിനോടൊപ്പം തന്നെ,
ഈ ഇന്റർനെറ്റിന്റെ
അടിസ്ഥാന ലക്ഷ്യം,
ഒന്നിലധികം ഡിവൈസുകളുടെ
ഒരു സംവേദനാത്മക
എൻവയോൺമെന്റ് ഉണ്ടാക്കുക
എന്നതാണ്.
നിങ്ങളുടെ ഉപാധികളുടെ
എണ്ണം വർദ്ധിച്ചുകൊണ്ടിരിക്കുകയാണെങ്കിലും
നിങ്ങളുടെ എല്ലാ
സിസ്റ്റവും കൂടുതൽ
ബുദ്ധിപൂർവ്വവും
ഇന്ററാക്ടീവ് ആയിരിക്കണം.
നിങ്ങളുടെ സിസ്റ്റം
പ്രകടനം താഴേക്ക്
പോവുകയാണ്.
അതിനാൽ, നിങ്ങളുടെ
സിസ്റ്റം പ്രകടനം
നിലനിർത്തുന്നത്
ഉപയോഗിച്ച് ഉപകരണം
സമന്വയിപ്പിക്കേണ്ടതുണ്ട്.

Bengali: 
(networking) এর উপাদান অন্তর্ভুক্ত
করতে যাচ্ছি , আমরা
ক্লায়েন্টের (Client)
জন্য একটি পাইথন
স্ক্রিপ্টিং(python script)
বাস্তবায়ন করতে
যাচ্ছি যেটা রাস্পবেরি
পাই কে একটি ক্লায়েন্ট
(Client) হিসাবে আচরণ করাবে,
যেখানে দূরবর্তী
ডেস্কটপ ( desktop) যা সার্ভার
(server)হিসাবে কাজ করবে
সে অন্য একটি পাইথন
স্ক্রিপ্ট ব্যবহার
করবে যা একটি ইউ ডি
পি (ইউ ডি পি (UDP)) সার্ভার(server)হিসাবে
কাজ করবে।
সুতরাং, এই পদ্ধতি
(system) তে আমরা রাস্পবেরি

Telugu: 
)పనిచేసే మరొక పైథాన్
లిపిని (script )ఇది ఉపయోగిస్తుంది
ఒక UDP సర్వర్ వలె పని
చేస్తుంది.
కాబట్టి, ఈ విధంగా
మనము రాస్ప్బెర్రీ
పై క్లయింట్ మరియు
డెస్క్టాప్ ఆధారిత
సర్వర్ మధ్య డేటాగ్రామ్
ఆధారిత కనెక్షన్ను
రూపొందించబోతున్నాం.
కాబట్టి, ఈ విషయాల
యొక్క ప్రాథమిక లక్ష్యాలు,
నెట్వర్క్ డివైసెస్
యొక్క ఇంటరాక్టివ్
ఎన్విరాన్మెంట్ను
సృష్టించడం, ఇది
మీ అన్ని డివైసెస్తో
పాటుగా అదనంగా డివైసెస్
సంఖ్యను కనెక్ట్
చేస్తుంది.
మన మొత్తం వ్యవస్థ
మరింత తెలివైన మరియు
ఇంటరాక్టివ్గా ఉండాలి,
అది మన పరికరం డివైసెస్
సంఖ్యను పెంచుతుంది
కానీ; మనసిస్టమ్
పనితీరు తగ్గనుంది.

English: 
create a ah data gram based connection between
the raspberry pi client and the desktop based
server
so again ah basic aim of this internet of
things is to create an interactive environment
of network devices which are all connected
together additionally your devices more the
number of devices the more intelligent and
interactive your whole system should be it
should not be that you are increasing your
device number of devices whereas your system
performance is going down so by maintaining
your system performance the device integration
has to be made so i am sure the various strategies
have been covered in the previous theoretical
lectures in this one ah we are going to give

Gujarati: 
અમે કેટલાક નેટવર્કિંગ
તત્વો (networking elements) શામેલ
કરવા જઈ રહ્યા છીએ
કે જે પયથોન સ્ક્રિપટિંગ
(python scripting ) ક્લાયન્ટ
(client) માટે રાશબરી પાઇ
(raspberry pi) ને ક્લાયન્ટ
(client) ની જેમ વર્તે,
જયારે રિમોટ ડેસ્કટોપ
(remote desktop) જે સર્વર (server)
બની વર્તે એમાં અન્ય
પયથોન સ્ક્રિપટિંગ
(python scripting ) નો UDP સર્વર
(server) તરીકે ઉપયોગ કરશે.

Bengali: 
পাই এর ক্লায়েন্ট(
Client) এবং ডেস্কটপ ( desktop)
ভিত্তিক সার্ভার
(server) মধ্যে একটি ডাটাগ্রাম
(datagram) ভিত্তিক সংযোগ
তৈরি করতে যাচ্ছি।
সুতরাং, এই ইন্টারনেটের(internet)
মূল উদ্দেশ্য হল
যৌথ সম্প্রচার ব্যবস্থার(network)যন্ত্র
(devices) একটি অপরের সাথে
ক্রিয়াশীল (interactive)পরিবেশ
তৈরি করা যা আপনার
সমস্ত যন্ত্র গুলির
(devices) আরও বেশি যন্ত্র
(devices) সংখ্যায় একসঙ্গে
সংযুক্ত করে।
আপনার পুরো পদ্ধতি
(system) টি (system) বুদ্ধিমান
এবং ক্রিয়াশীল (interactive)
হওয়া উচিৎ ‍এটা

Gujarati: 
તેથી, આ રીતે આપણે
રાશબરી પાઇ (raspberry pi)
ક્લાયન્ટ (client) અને
ડેસ્કટોપ (desktop) આધારિત
સર્વર(server) વચ્ચે ડેટાગ્રામ
આધારિત જોડાણ બનાવવા
જઈ રહ્યા છીએ.
તેથી, આ ઈન્ટરનેટ
ઓફ થિંગ્સ (Internet of Things)
નો મૂળભૂત ઉદ્દેશ્ય
નેટવર્ક ઉપકરણો (network
devices) નું અરસપરસ વાતાવરણ
બનાવવાનો છે કે જે
બધા જોડાયેલા ડિવાઇસેસની
(devices) સાથે મળીને તમારા
ડિવાઇસેસને (devices) વધુ

Telugu: 
కాబట్టి, మన సిస్టమ్
పనితీరును నిర్వహించడం
ద్వారా పరికరం ఏకీకరణ
చేయవలసి ఉంది. కాబట్టి,
మన గత ఉపన్యాసాలలో
మీరు నేర్చుకున్న
సైద్ధాంతిక ప్రాథమిక
(theoretical lectures) నిరూపణలో
చాలా ప్రాథమిక వ్యూహాల
ప్రదర్శన ఇచ్చేటప్పుడు,
మన ఈ సిద్ధాంతంలోని
మునుపటి సిద్ధాంతపరమైన
ఉపన్యాసాలలో వివిధ
మూలాధార వ్యూహాలు
ఉపయాగ పడతాయి.
కాబట్టి, ఈ రెండవ
ఉపన్యాసంలో రిమోట్
డేటా లోగ్గింగ్(logging)
మీదమరింత దృష్టి
కేంద్రీకరిస్తాము.
అందువల్ల, అది నెట్వర్క్లో
ఉన్న డివైసెస్ నుండి
డేటాను సేకరిస్తుంది,
ఇది సర్వర్ లేదా
రిమోట్ మిషన్కు డేటాను
పంపుతుంది మరియు
రిమోట్ యంత్రం, రిమోట్
యంత్రం క్లయింట్
లేదా డేటా పంపే పరికరాన్ని
రిమోట్గా నియంత్రిస్తుంది.

English: 
a basic demonstration of whatever you have
learnt in your previous lectures a rudimental
demonstration
so in this second lecture we will be focus
more on remote data logging so it will be
collecting ah data from the devices in the
network it will send the data to a server
or a remote machine and that remote machine
will the remote machine will control the client
or the data sending device remotely so the
system overview is as i have told you previously
and network of temperature and humidity sensors
will be connected to raspberry pi here for
the sake of demonstration we are only connecting
one temperature and humidity sensor with single
raspberry pi data from the sensors are red
it is sent to the server over the network
and the data is saved in the server
so same as before we have the same requirements
a raspberry pi a dht sensor a four point kilo

Malayalam: 
അതിനാൽ, മുമ്പത്തെ
സൈദ്ധാന്തിക പ്രഭാഷണങ്ങളിൽ
വിവിധ തന്ത്രങ്ങൾ
ഉൾപ്പെട്ടിട്ടുണ്ടെന്ന്
ഞാൻ ഉറപ്പു നൽകുന്നു.
നിങ്ങളുടെ മുമ്പത്തെ
പ്രഭാഷണങ്ങളിൽ നിങ്ങൾ
പഠിച്ചതെന്തും അടിസ്ഥാനപരമായ
ഒരു പ്രകടനം ഞങ്ങൾ
വളരെ ലളിതമായി പ്രകടിപ്പിക്കുന്നു.
അതിനാൽ, ഈ രണ്ടാമത്തെ
പ്രഭാഷണത്തിൽ നാം
വിദൂര ഡാറ്റാ രേഖയിൽ
(remote data logging) കൂടുതൽ ശ്രദ്ധ
കേന്ദ്രീകരിക്കും.
അതിനാൽ, ഇത് നെറ്റ്വർക്കിലെ
ഡിവൈസുകളിൽ നിന്നും
ഡാറ്റ ശേഖരിക്കും,
അത് സെർവർ അല്ലെങ്കിൽ
റിമോട്ട് മെഷീനിൽ
ഡാറ്റ അയയ്ക്കും,
റിമോട്ട് മെഷീൻ റിമോട്ട്
മെഷീൻ ക്ലയന്റിനെ
നിയന്ത്രിക്കാനോ
ഡാറ്റ അയയ്ക്കുന്നതിനുള്ള
ഉപകരണം വിദൂരമായി
നിയന്ത്രിക്കാനോ
കഴിയും.
അതിനാൽ, സിസ്റ്റം
അവലോകനം നാം നേരത്തെ

Gujarati: 
ઉપકરણોની સંખ્યા
સાથે જોડે છે.
તમારી આખી સિસ્ટમ
(system), વધુ બુદ્ધિશાળી
અને પૂછપરછવાળી હોવી
જોઈએ, નહિ કે તમે ઉપકરણોની
સંખ્યા વધારી રહ્યાં
છો જેનાથી તમારી
સિસ્ટમનો પ્રભાવ
ઘટી જશે. તેથી, તમારી
સિસ્ટમની કામગીરી
જાળવી રાખીને ઉપકરણ
એકીકરણ કરવું જરૂરી
છે. તેથી, મને ખાતરી
છે કે વિવિધ વ્યૂહરચનાઓ
અગાઉના સૈદ્ધાંતિક
પ્રવચનોમાં આવરી
લેવામાં આવ્યા છે.

English: 
ohm resistor ah it is to be noted that ah
for raspberry pi this four point seven kilo
ohm resistor must be obtain between the bcc
and the data pin that is between pin one and
two ah additionally we will be requiring jumper
wires to make our connections again for recapitulation
well go about discussing the dht
so from left to right if you keep the grid
side up you have pins numbered one to four
first being the vcc pin fourth being the ground
and the second pin is used for transmitting
data
so the connection to the raspberry pi will
b as follows ah from the previous lecture
we have just debuted a little bit you can
also use the same ah configuration as done

Malayalam: 
പറഞ്ഞിട്ടുള്ള പോലെ
താപനില, ഈർപ്പം സെൻസറുകൾ,
നെറ്റ്വർക്ക് റാസ്ബെറി
പൈ (raspberry pi) കണക്ട് ചെയ്യും.
ഇവിടെ മാതൃകക്കു
വേണ്ടി ഞങ്ങൾ ഒരു
താപനിലയും ഈർപ്പം
സെൻസറുമായി ബന്ധിപ്പിക്കുന്നു,
അതിൽ ഒറ്റ റാസ്ബെറി
പൈ ഡാറ്റ സെൻസറുകളിൽ
നിന്ന് ശേഖരിക്കപ്പെടുന്നു,
സെർവറിന് സെർവറിലേക്ക്
അയയ്ക്കപ്പെടുന്നു,
സെർവറിൽ ഡാറ്റ സൂക്ഷിക്കുന്നു
.
അതിനാൽ, നമുക്കും
അതേ ആവശ്യകതകൾ ഉണ്ടെങ്കിൽ
റാസ്പ്ബെറി പൈ ഒരു
DHT സെൻസർ 4.0 കിലോ ഓം
റെസിസ്റ്ററാണ് (ohm
resistor).
ബിസിസിനും പിൻ ഒന്നിനും
ഇടയിലുള്ള ഡാറ്റ
പിൻക്കും രണ്ടിലും
ഒക്മിക് റിസസ്റ്ററി
ഉണ്ടായിരിക്കണം.
കൂടാതെ ഡിഎച്ച്ടി
ചർച്ച ചെയ്യുന്നതിനായി
വീണ്ടും വീണ്ടും
ബന്ധിപ്പിക്കുന്നതിന്

Bengali: 
উচিৎ নয় যে আপনি
আপনার যন্ত্র গুলির
(devices) যন্ত্র (device) সংখ্যা
বৃদ্ধি করছেন; ফলে
আপনার পদ্ধতি (system)
র (system) কর্মক্ষমতা
কমে যাচ্ছে।
সুতরাং, আপনার পদ্ধতি
(system) র কর্মক্ষমতা(performance)
বজায় রাখতে যন্ত্র
গুলির (devices) অনুভূমিক
সংযু্ক্তিকরণ (integration)
করতে হবে।
সুতরাং, আমি নিশ্চিত
যে এই কৌশলগুলি পূর্বের
তাত্ত্বিক বক্তৃতাগুলিতে
অন্তর্ভুক্ত করা
হয়েছে ,বিভিন্ন
কৌশলগুলি যা আমরা
আপনার পূর্ববর্তী
বক্তৃতাগুলিতে আপনি

Telugu: 
కాబట్టి, వ్యవస్థ
అవలోకనం(overview) నేను
గతంలో మీకు వివరించిన
మరియు ఉష్ణోగ్రత
మరియు తేమ సెన్సార్లు
నెట్వర్క్ రాస్బెర్రి
పై కి కొన్నేక్టయ్యి
ఉంటాయి.
ఇక్కడ ప్రదర్శన కోసం
మనము ఒక ఉష్ణోగ్రత
మరియు తేమ సెన్సార్
కనెక్ట్ సెన్సార్ల
నుండి సింగిల్ రాస్బెర్రి
పై డేటా ని సెన్సర్ల
నుండి తీసుకుంటాము
,యీ డాటా నెట్వర్క్
ద్వారా సర్వర్కు(server)
పంపబడుతుంది మరియు
ఈ డేటా సర్వర్ లో
నిల్వ(save) చేయబడుతుంది.
కాబట్టి, అదే అవసరాలకు
ముందుగా మనము ఒక
రాస్ప్బెర్రీ పై
ఒక DHT సెన్సర్ 4.0 కిలో
ఓమ్ రెసిస్టర్(resistor)
ను కలిగి ఉంటుంది,

Gujarati: 
અહીં અમે મૂળભૂત
પ્રદર્શન આપવા જઈ
રહ્યા છીએ જયારે
તમારા અગાઉના પ્રવચનોમાં
તમે જે કંઈ શીખ્યા
તે ખૂબ અસ્થાયી પ્રદર્શન
હતા.
તો, આ બીજા લેક્ચરમાં
અમે વધુ રિમોટ ડેટા
લોગીંગ (remote data logging) પર
ધ્યાન કેન્દ્રિત
કરીશું.
તેથી, તે નેટવર્કમાંના
ઉપકરણો(device) માંથી
ડેટા એકત્ર કરશે,
તે ડેટાને સર્વર
અથવા રિમોટ મશીન
પર મોકલશે અને તે

English: 
in the previous lectures but remember the
board configuration for this dht sensor must
be in bcm mode not in board mode so we are
connecting the dht sensor to three point three
volt pin of raspberry pi we are connecting
the data pin or pin two of the dht sensor
to pin eleven of raspberry pi this pin eleven
is in bcm mode and we are connecting pin four
of dht sensor to the ground pin of raspberry
pi pin
now as in the previous lectures we have already
covered this adafruit which supplies this
dht twenty two sensor they also provide a
library to integrate sensor to raspberry pi
via python frame work so this has already
been installed during our previous lecture
now we are going to call the adafruit under
score dht dot read retry function to read

Bengali: 
যা শিখেছেন তার একটি
প্রাথমিক (rudimentary)বাহ্যিক
প্রকাশ (demonstration) দিতে
চলেছে।
সুতরাং, এই দ্বিতীয়
বক্তৃতায় আমরা দূরবর্তী(remote)ডাটা
লগিং (data logging)এর উপর
আরো আলোকপাত (focus) করা
হবে।
সুতরাং, এটি যৌথ সম্প্রচার
ব্যবস্থার মধ্যের
যন্ত্র(devices)থেকে ডাটা
(data ) সংগ্রহ করা হবে,
এটি একটি সার্ভারে
(server) বা একটি দূরবর্তী
মেশিনে পাঠাতে হবে
যে দূরবর্তী মেশিন
ক্লায়েন্ট (Client) নিয়ন্ত্রণ
করবে । সুতরাং, পদ্ধতি
(system) র সারসংক্ষেপ
হিসাবে আমি আগেই

Telugu: 
అది రాస్ప్బెర్రీ
పై ఈ 4.7 కిలో ohm రెసిస్టర్
బిసిసి (BCC) మరియు పిన్
మధ్య పిన్ ఒకటి మరియు
2 పిన్ మధ్య పొందటానికి
జంపర్ వైరింగ్(jumper
wires ) అదనంగా ఉండాలి
, మనము DHT చర్చించడానికి
బాగా పునశ్చరణ కోసం
మళ్ళీ మనము కనెక్షన్లు
చేయడానికి జంపర్
వైర్లు అవసరం ఉంటుంది.
కాబట్టి, మీరు గ్రిడ్
ఎడమ నుండి కుడికి
వైపు ఉంచుకుంటే ; VC
పిన్ 4 గా ఉండటం ద్వారా
1 నుండి 4 వరకు పిన్స్
కలిగివుంటాయి మరియు
డేటాను ప్రసారం చేయడానికి
రెండవ పిన్ పయోగించబడుతుంది.
కాబట్టి, రాస్ప్బెర్రీ
పై కనెక్షన్ మునుపటి
ఉపన్యాసంలో చేసినట్లుగా
ఉంటుంది, మునుపటి

Malayalam: 
വീണ്ടും ജമ്പർ ലൈനുകൾ
(jumper wires) ആവശ്യമായി
വരും. നിങ്ങൾ ഗ്രിഡ്
സൈഡ് നിലനിർത്തിയാൽ
ഇടത്ത് നിന്ന് വലത്തോട്ട്;
നിങ്ങൾ 1 മുതൽ 4 വരെ
വംശം പി.കെ. നാലാം
സ്ഥാനത്ത് നിലകൊള്ളുന്നു,
രണ്ടാമത്തെ പിൻ ഡാറ്റ
കൈമാറ്റം ചെയ്യുന്നതിനായി
ഉപയോഗിക്കുന്നു.
അതിനാൽ, റാസ്പ്ബെറി
പൈയിലേക്കുള്ള ബന്ധം
മുൻ പ്രഭാഷണങ്ങളിൽ
നിന്ന് വരുന്നതാണ്,
ഞങ്ങൾ മുൻപ് നടത്തിയ
പ്രഭാഷണങ്ങളിൽ ചെയ്തപോലെ
തന്നെ സമാന കോൺഫിഗറേഷൻ
ഉപയോഗിക്കാൻ കഴിയും,
എന്നാൽ ഓർക്കുക ഈ
ഡിഎച്ച്ടി (DHT) സെൻസറിനുള്ള
കോൺഫിഗർ ബോർഡ് മോഡിൽ
അല്ല BCM മോഡിൽ ആയിരിക്കണം.
DHT സെൻസറിലേക്ക് 3.3
വോൾട്ട് പിൻ റാൻബാബറി
പൈയെ ബന്ധിപ്പിക്കുന്നതിനായി
നമ്മൾ ബന്ധിപ്പിക്കുന്നു.

Bengali: 
আপনাকে বলেছি এবং
তাপমাত্রার যৌথ সম্প্রচার
ব্যবস্থা (network) এবং
আর্দ্রতা সেন্সার(sensor)
রাস্পবেরি পাইতে
সংযুক্ত করা হবে।
এখানে বাহ্যিক প্রকাশের
(demonstration) জন্য আমরা
শুধুমাত্র এক তাপমাত্রা
এবং আর্দ্রতা সংবেদক
সেন্সার(sensor) থেকে
একক রাস্পবেরি পাই
ডাটা(data ) দিয়ে সংযুক্ত
করি।
এটি সার্ভারের যৌথ
সম্প্রচার ব্যবস্থায়
(network) পাঠানো হয় এবং
ডাটা(data ) সার্ভারে
সংরক্ষণ করা হয়।
সুতরাং, আমাদের কাছে
একই প্রয়জনীয় জিনিস(required)

Telugu: 
ఉపన్యాసాలలో చేసినట్లుగా
మీరు అదే ఆకృతీకరణను
(configuration) కూడా ఉపయోగించుకోవచ్చు,
కానీ బోర్డు ఆకృతీకరణను
ని (configuration) గుర్తుంచుకోవాలి
ఈ DHT సెన్సార్ కోసం
కాన్ఫిగరేషన్ తప్పనిసరిగా
BCM మోడ్లో బోర్డ్
రీతిలో ఉండాలి బోర్డుమోడ్
లోఉండకూడదు.
కాబట్టి, DHT సెన్సర్ను
రాస్బెర్రి పి యొక్క
3.3 వోల్ట్ పిన్ కి
కనెక్ట్ చేస్తున్నాము
.ఇప్పుడు డేటా పిన్
లేదా పిన్ డి‌టి‌హెచ్
యొక్క (డి‌టి‌హెచ్)2
పిన్(రెండవ పిన్
) ను రాస్బెర్రి పి
యొక్క 11 కు కనెక్ట్
చేస్తాము.
ఇది బి‌సి‌ఎం (BCM)మోడ్
లో ఉండాలి.
మనము డి‌టి‌హెచ్
(DTH Sensor) సెన్సర్ యొక్క

Gujarati: 
રીમોટ મશીન ક્લાઈન્ટને
નિયંત્રિત કરશે અથવા
ડેટા રિમોટ ડિવાઇસને
મોકલશે.
તેથી, સિસ્ટમની ઝાંખી
એ જ છે જેમ મેં તમને
પહેલાં કહ્યું છે
અને તાપમાન અને ભેજ
સેન્સરનું નેટવર્ક
રાશબરી પાઇ (raspberry pi)
સાથે જોડાયેલું છે.
અહીં ફક્ત સાબિતી
માટે આપણે સેન્સર્સમાંથી
માત્ર એક તાપમાન
અને ભેજ સેન્સરને
કનેક્ટ કરી રહ્યા
છીએ, તે સેન્સરમાંથી
એક રાશબરી પાઇ (raspberry

English: 
data from the sensor so as you can see the
codes and the outputs or more or less similar
to the previous one we are going to the temperature
only the additionally ah you can attach your
humidity readings also but for the sake of
testing you can just go with the temperature
readings now for sending the data over the
network we will be using a client server client
server model and to establish the connection
you are going to ah take the help of a udp
based socket ah will make a udp based socket
which will send data from client to the server
now for this socket programming
this generally sockets create a two way communication

Malayalam: 
ഡിഎച്ച്ടി സെൻററിന്റെ
പിൻ പിൻവലിക്കാൻ
റാസ്പ്ബെറി പൈ 11 പിൻ
ഈ പിൻ 11 BCM മോഡിൽ ഉപയോഗിക്കുന്നു.
നാം ഡിഎച്ച്ടി സെൻസറിന്റെ
പിൻ 4 റാസ്ബെറി പൈ
പിന്നുമായി (raspberry
pi pin) നിലത്തു കണക്ട്
ചെയ്യുന്നു.
ഇപ്പോൾ മുമ്പത്തെ
പ്രഭാഷണങ്ങളിൽ നാം
ഈ ഡിഎച്ച്ടിറ്റി
22 (DHT 22) സെൻസറാണ് നൽകുന്നത്.
ഈ സെൻസറിന്റെ പൈത്തൺ
ഫ്രെയിം വർക്ക് (python
frame work) വഴി റാസ്ബെറി
പൈയിലേയ്ക്ക് ഒരു
ലൈബ്രറിയും നൽകുന്നു.
നമ്മുടെ മുൻ പ്രഭാഷണത്തിൽ
ഇതിനകം ഇത് ഇൻസ്റ്റാൾ
ചെയ്തിട്ടുണ്ട്.
അത്കൊണ്ട് നാം DHT
സെൻസർ 3.3 റാസ്ബെറി
പൈ വോൾട് പിന്നുമായി
ബന്ധിപ്പിക്കുകയും

English: 
between two nodes in a network one node is
termed as the server whereas the other as
is termed as the client the server performs
the task or the service as requested by the
client so how do you proceed by creating a
socket on raspberry pi this was also covered
in the previous lectures on introduction to
raspberry pi so it is quite simple to assign
the socket dot socket function to a variable
and you manipulate that variable
so this socket dot socket function it has
three arguments first is socket family second
is socket type and third is protocol which
is by default zero socket family can be either
af under square unix or af under square inet
so unix as you recall it is mainly for on

Gujarati: 
pi) ડેટા વાંચે છે, તે
નેટવર્ક દ્વારા સર્વર
પર મોકલવામાં આવે
છે અને ડેટા સર્વરમાં
સાચવવામાં આવે છે.
તેથી, પેહલાની જેમ
આપણી પાસે એક સરાખી
જરૂરિયાતો જેમ કે
રાશબરી પાઇ (raspberry pi),
DHT સેન્સર 4.0 કિલો ઓહ
રેઝિસ્ટર છે. તે પહેલાં
જ તે નોંધવું જોઇએ
કે રાશબરી પાઇ (raspberry
pi) માટે આ 4.7 કિલો ઓહ્મ
રેઝિસ્ટરને બીસીસી(BCC)

Malayalam: 
ഡാറ്റ പിന് അല്ലെങ്കിൽ
DHT പിന് രണ്ട് സെൻസർ
റാസ്ബെറി പൈ പിന്
11 ബിസിഎം മോഡിൽ dth
പിന് 4 മായി ബന്ധിപ്പിക്കുകയാണ്.
അതുപോലെ, നിങ്ങൾക്ക്
കോഡുകളും ഔട്ട്പുട്ടുകളും
അല്ലെങ്കിൽ മുമ്പത്തേതിലും
കൂടുതലോ കുറവോ സമാനമോ
കാണാൻ കഴിയും.
ഇനി നാം താപനില (temperature)
വായിക്കാൻ പോകുന്നു,
കൂടാതെ നിങ്ങളുടെ
ആർദ്രത (humidity) വായനകളും
കൂടി ചേർക്കാം, പക്ഷേ
പരിശോധനയ്ക്കായി
നിങ്ങൾക്ക് താപനില
വായനകൾ ഉപയോഗിച്ച്
പോകാം.
ഇപ്പോൾ നെറ്റ്വർക്കിൽ
(network) ഡാറ്റ അയയ്ക്കുന്നതിനായി
ഞങ്ങൾ ഒരു ക്ലയന്റ്
സെർവർ (client server) മോഡൽ
ഉപയോഗിക്കും, ഒരു
UDP അധിഷ്ഠിത സോക്കറ്റിന്റെ

Bengali: 
আছে যেমন একটি রাস্পবেরী
পাই, ডি এইচ টি (DHT) সেন্সার(sensor)একটি
4.0 কিলো ওম রোধকারী
(resistor) । এটি লক্ষ্য
করা যেতে পারে যে
রাস্পবেরি পাইয়ের
জন্য এই 4.7 কিলো ওম
রোধকারী (resistor) অবশ্যই
বিসিসি (BBC)এবং তথ্যপিনের
(data pin)মধ্যে থাকবে
যেটা আবার একটি পিন
1 এবং 2 এর মধ্যে থাকা
উচিত।
উপরন্তু আমরা পুনরায়
সংযোগ স্থাপনের জন্য
এবং আমাদের সংযোগগুলি
পুনরায় তৈরি করার

Telugu: 
4 వ పిన్ ని రాస్బెర్రి
పై యొక్క నేల పిన్
(ground pin)కి కనెక్ట్ చేస్తాము.
మునుపటి ఉపన్యాసాలలో
మనము ఈ DHT 22 సెన్సార్ను
అందించే ఈ Adafruit ని
ఇప్పటికే కవర్ చేసాము,
వారు పైథన్ ఫ్రేమ్
వర్క్ ద్వారా రాస్ప్బెర్రీ
పైకి ఈ సెన్సార్ను
సమగ్రపరచడానికి
లైబ్రరీని కూడా అందిస్తారు.
కాబట్టి, ఇది మా మునుపటి
ఉపన్యాసం సమయంలో
ఇప్పటికే ఇన్స్టాల్
చేయబడింది.
సెన్సార్ నుండి డేటాను
చదవడానికి ఇప్పుడు
మనము Adafruit_DHT.read_retry() అనే
ఫంక్షన్(function) ని ఉపయోగిస్తాము.
కాబట్టి, మనము సంకేతాల(codes)
ని మరియు అవుట్పుట్లను(outputs)
ని మునుపటి అవుట్పుట్ల
తో పోలిన లేదా అంతకంటే
ఎక్కువ పోలిక కలిగి
ఉండటం గమనిస్తాము.

Telugu: 
మనము ఉష్ణోగ్రతలను
పొందుపరుస్తాము,
అదనంగా మన తేమ యొక్క
రీడింగులను (readings)
కూడా అటాచ్ చేసుకోవచ్చు,
కానీ పరీక్ష కొరకు
మనముకేవలం ఉష్ణోగ్రత
రీడింగులను మాత్రమే
ఉపయోగిస్తాము . ఇప్పుడు
నెట్ వర్క్ పై సమాచారాన్ని
పంపుటకు క్లయింట్
సర్వర్ క్లయింట్
సర్వర్ మోడల్ వుపయోగిస్తాము,
క్లయింట్ సర్వర్
మాడెల్ లో UDP ఆధారిత
సాకెట్(socket) పద్దతి
(model)సహాయం వాడుతాము,
ఈ UDP మాడెల్ అనుసంధానము
ఒక క్లయింట్ నుండి
సర్వర్కు డేటాను
పంపించే సాకెట్ ప్రోగ్రామింగ్
(Socket programming) ని ఉపయోగిస్తుంది.
సాకెట్స్ సాధారణంగా
ఒక నెట్వర్క్లో 2
నోడ్ల మధ్య ఒక 2 మార్గంసంభాషణ(2
way communication) ను సృష్టిస్తుంది,

Bengali: 
জন্য জ্যামারের তারের
(jumper wires) প্রয়োজন হবে।
সুতরাং, যদি আপনি
বাম থেকে ডানদিকে
গ্রীড পাশাপাশি রাখেন;
তবে আপনার পিনের
সংখ্যা হবে 1 থেকে
4 , প্রথমটি হচ্ছে
ভিসিপি পিন 4 তম গ্রাউন্ড(GROUND)
হচ্ছে এবং দ্বিতীয়
পিনটি ডাটা(data) প্রেরণ
করার জন্য ব্যবহৃত
হয়।
অতএব, রাস্পবেরী
পাইয়ের (raspberry pi) সাথে
সংযোগটি পূর্বের
বক্তৃতা থেকে যেমন
আমরা সামান্য আলোচনা
(debuted) করলাম তেমনি
আপনি পূর্বের বক্তৃতাগুলির
মতো একই রূপরেখা

Gujarati: 
અને ડેટા પિન વચ્ચે
મેળવવાની જરૂર છે
જે પિન 1 અને 2 ની વચ્ચે
હોય છે. આપણે કનેક્શન્સ
બનાવવા માટે જમ્પર
વાયરની જરૂર પડશે.
પુનરાવર્તન માટે
આપણે ડીએચટી (DHT)ની
ચર્ચા કરવા વિશે
આગળ વધશો. તેથી, જો
ડાબેથી જમણે તમે
ગ્રીડ બાજુ રાખો
તો, તમારી પાસે પીનની
સંખ્યા 1 થી 4 છે, પ્રથમ

Malayalam: 
സഹായത്തോടെ നിങ്ങൾ
പോകാൻ പോകുന്ന കണക്ഷൻ
സ്ഥാപിക്കാൻ ഒരു
UDP അധിഷ്ഠിത സോക്കറ്റ്
ഉണ്ടാക്കുകയും ക്ലയന്റിൽ
നിന്ന് സെർവറിലേക്ക്
ഡാറ്റ അയയ്ക്കുകയും
ചെയ്യും.
ഇപ്പോൾ ഈ സോക്കറ്റിന്റെ
പ്രോഗ്രാമിനായി.
ഇത് സാധാരണയായി നെറ്റ്വർക്കിൽ
2 നോഡുകൾക്കിടയിൽ
ഒരു 2 വഴി ആശയവിനിമയം
സൃഷ്ടിക്കുന്നു,
1 നോഡ് സെർവേർ എന്നാണ്
വിളിക്കപ്പെടുന്നത്,
ക്ലയന്റ് ആവശ്യപ്പെട്ടത്
പ്രകാരം സെർവറിന്റെ
സെർവറായി എന്ന് സൂചിപ്പിക്കപ്പെടുന്നു.
അങ്ങനെ, നിങ്ങൾ റാസ്ബെറി
പൈയിൽ സോക്കറ്റ്
സൃഷ്ടിക്കുന്നതിലൂടെ
അങ്ങനെ മുന്നോട്ട്
പോകും മുൻപ് റാസ്ബെറി
പൈയുടെ പരിചയത്തെക്കുറിച്ചുള്ള
മുൻ പ്രഭാഷണങ്ങളിൽ
ഉൾപ്പെടുത്തിയിരുന്നു.
അതിനാൽ, socket ഫങ്ഷനെ
ഒരു വേരിയബിളിന്

English: 
the unix base systems whereas for most of
the general purpose programming we are going
with af under score inet or internet protocols
socket type can be either socket stream or
socket data gram now while sending a data
from a client to a server we need two scripts
one for the server and one for the client
and two things will be required first is the
ip address of the server and the port of the
server to which your client will bind
so your client can have a variety of ip addresses
but it is important that your server retain
a singular ip address see for this infrastructure
for this exact project we are demonstrating
you only require one way communication that
is from the client to the server so your clients

Bengali: 
(configuration) ব্যবহার করতে
পারবেন, তবে বোর্ডটি
মনে রাখবেন বোর্ডটি
এই ডি এইচ টি (DHT) অনুভাবকের
(sensor) জন্য রূপরেখা
(configuration) বিসিএম (BCM) ধরনের(mode),
বোর্ড ধরনের(mode) নয়।
তাই, আমরা ডি এইচ টি
(DHT) সেন্সারকে(sensor)
রাস্পবেরী পাইয়ের
(raspberry pi) 3.3 ভল্ট পিনের
সাথে সংযুক্ত করছি।
আমরা ডি এইচ টি (DHT)
সেন্সারকের(sensor)ডাটাপিন(data
pin) বা পিন 2 এর সাথে
রাস্পবেরী পাইয়ের

Malayalam: 
കൊടുക്കുന്നതിന്
വളരെ ലളിതമാണ്, ആ
വേരിയബിളിനെ നിങ്ങൾ
കൈകാര്യം ചെയ്യുന്നു.
സോക്കറ്റ് ഫൈമി രണ്ടാമത്തേത്
SocketType ആണ്, മൂന്നാമത്തെ
പ്രോട്ടോകോളാണ്
സ്വതവേ പൂജ്യം സോക്കറ്റ്
കുടുംബം AF_UNIX അല്ലെങ്കിൽ
AF_INET ആയിരിക്കാം.
യുണിക്സ് (UNIX) നിങ്ങൾ
യുണിക്സ് ഓർക്കുമ്പോഴും
യുണിക്സ് അടിസ്ഥാന
സംവിധാനങ്ങളിൽ പ്രധാനമാണ്.
എന്നാൽ പൊതു ഉദ്ദേശ്യ
പ്രോഗ്രാമിന് വേണ്ടി
ഞങ്ങൾ AF_INET അല്ലെങ്കിൽ
ഇന്റർനെറ്റ് പ്രോട്ടോക്കോളുകൾ
(internet protocols) സോക്കറ്റ്
തരം പോകുന്നു Socket_Stream
അല്ലെങ്കിൽ Socket_data
ഗ്രാം ആയിരിക്കും.
ഇപ്പോൾ ഒരു ക്ലയന്റിൽ(client)
നിന്ന് ഒരു സെർവറിലേക്ക്(server)
ഒരു ഡാറ്റാ അയക്കുമ്പോൾ
സെർവറിന് 2 സ്ക്രിപ്റ്റുകളും

English: 
do not need to have fixed ip addresses may
be they can have a variety of ip addresses
about which the server has no prior knowledge
but it is very important that each and every
client should be aware of the servers ip address
as well as the port to which the client is
going to connect so we start off with calling
the functions of socket dot socket we ah put
the host as socket dot get host name we assign
a particular port and we bind to the port
by calling the host name is the first argument
and the port number as the second argument
and we start our listening function which
waits for a client to connect to it
now while true it signifies while a client
has accepted the connection and connected
to your server on that particular port it
will ah generate one address and this address

Telugu: 
1 నోడ్ సర్వర్గా (server)
పిలువబడుతుంది, అయితే
మిగిలిన నోడ్ ని
క్లయింట్ అని పిలుస్తారు,
సర్వర్ దాని నిర్ధారించిన
పని లేదా క్లయింట్
అభ్యర్థించిన సేవను
నిర్వహిస్తుంది
.
కాబట్టి, మనము ఇప్పుడు
రాస్ప్బెర్రీ పై
ఒక సాకెట్ సృష్టించడం(creating
socket) అనే విధానాన్ని
కవర్ చేద్దాము, ఇది
రాస్ప్బెర్రీ పై
ప్రయోగంలో మునుపటి
ఉపన్యాసాలు లో కవర్
చేయబడింది.
కాబట్టి, socket.socket ఫంక్షన్ను
వేరియబుల్కు(variables)
కేటాయించడం చాలా
సరళమైనది మరియు మీరు
ఆ వేరియబుల్ని మార్చవచ్చు.
కాబట్టి, ఈ socket.socket ఫంక్షన్లో
మూడు పదాలను (arguments)కలిగి
ఉంది. మొదటిది SocketFamily
రెండవది సాకెట్ రకం(socket

Gujarati: 
વાસી સી (VCC) પીન 4 મી
જમીન છે અને બીજા
પિનનો ડેટા પ્રસારણ
કરવા માટે વપરાય
છે.
તો, રાશબરી પાઇ (raspberry
pi) સાથેનું જોડાણ
અગાઉના પ્રવચનથી
નીચે પ્રમાણે હશે
જે આપણે હમણાં જ થોડુંક
રજૂ કર્યું છે, તમે
પહેલાના વ્યાખ્યાની
જેમ જ સમાન રૂપરેખાંકનનો
(configuration) ઉપયોગ કરી
શકો છો, પરંતુ બોર્ડને
યાદ રાખો આ DHT સેન્સર
માટેનું રૂપરેખાંકન(configuration)
બીસીએમ(BCM ) મોડમાં

Bengali: 
(raspberry pi) পিন 11 এর সাথে
সংযুক্ত করছি।
এই পিন 11 বি.সি.এম মোডে
রয়েছে এবং আমরা
ডিএইচটি সেন্সরের
পিন 4 কে রাস্পবেরিপাই
(raspberry pi) পিনের মাটি
পিনের(ground pin)সাথে সংযুক্ত
করব।
এখন, আগের বক্তৃতা
গুলির মধ্যে আমরা
এই অ্যাডাফ্রেটটি
ইতিমধ্যে অন্তর্ভুক্ত
রেখেছি যা এই ডি ইচ
টি (DHT) 22 সেন্সারটি
(sensor) সরবরাহ করে এবং
এটি পাইথন কাঠামো
(python frame) কাজের মাধ্যমে
রাস্পবেরি পিআইকে

Gujarati: 
હોવું જોઈએ જે બોર્ડ
મોડમાં નહીં. તેથી,
અમે ડીએચટી (DHT)સેન્સરને
રાશબરી પાઇ (raspberry pi)
ની 3.3 વોલ્ટ પીન સાથે
જોડી રહ્યા છીએ. અમે
ડીએચટી (DHT)સેન્સરનની
ડેટા પિન અથવા પિન
2 ને રાશબરી પાઇ (raspberry
pi) ની સાથે BCM મોડમાં
જોડાઈ રહ્યા છે. અને
DHT સેન્સરની પીન 4 રાશબરી
પાઇ (raspberry pi) ની Ground પિન
સાથે જોડીએ છીએ..
હવે, અગાઉના પ્રવચનમાં
આપણે આ Adafruit ને પહેલેથી
જ આવરી લીધું છે જે
આ DHT 22 સેન્સરને પૂરું

Telugu: 
type) మరియు మూడవది అప్రమేయ
సున్నా(default zero) సాకెట్
కుటుంబం ద్వారా ఇది
ప్రోటోకాల్ AF_UNIX లేదా
AF_INET గా ఉంటుంది.
కాబట్టి, ఇధి యునిక్స్
మన UNIX బేస్ సిస్టమ్స్
కోసం ప్రధానంగా ఉంది,
అయితే, సాధారణ ప్రయోజన
ప్రోగ్రామింగ్ కోసం
మనము AF_INET లేదా ఇంటర్నెట్
ప్రోటోకాల్స్ సాకెట్
రకం(internet protocol socket )లో
ని Socket_Stream లేదా సోకెట్
డేటాగ్రమ్మం (socket_datagram)
ని ఉపయోగిస్తాము
.
ఇప్పుడు ఒక క్లయింట్
నుండి ఒక సర్వర్కు
డేటాను పంపేటప్పుడు
2 స్క్రిప్ట్లను
ఉపయోగిస్తాము ఒకటి
సర్వర్ కోసం మరియు
రెండవది క్లయింట్
కోసం. మరియు 2 విషయాల

English: 
can be stored and later on ah used for ah
later on used for time stamping your data
to which ah on your server in various data
logs so imagine your your server has been
connected to twenty different ip addresses
or clients so these twenty clients are sending
variety of data to you but you need to know
the exact location of each of these clients
so that later on you can segregate the data
and connect to it
so once your connection has been accepted
it sends the server sends connection successful
and eventually when the socket is terminated
by the user you call the functions c dot close

Malayalam: 
ഒന്ന് ക്ലയന്റിനു
വേണ്ടിയും രണ്ട്
കാര്യങ്ങളും ആവശ്യമാണ്,
ആദ്യം സെർവറിന്റെയും
പോർട്ടിന്റെയും
ഐ.പി.(IP) നിങ്ങളുടെ
ക്ലയന്റ് ബന്ധിപ്പിക്കേണ്ട
സെർവറിലെ.
അതിനാൽ, നിങ്ങളുടെ
ക്ലയന്റിന് ഐ.പി.
വിലാസങ്ങൾ വൈവിധ്യമാർന്നതാകാം,
എന്നാൽ ഈ നിർദ്ദിഷ്ട
പ്രൊജക്റ്റിനായി
ഈ ഇൻഫ്രാസ്ട്രക്ചറിനായി
ഒരു സെർവർ ഐപി വിലാസം
നിലനിർത്തേണ്ടത്
പ്രധാനമാണ്, ക്ലയന്റിൽ
നിന്നും സെർവറുമായുള്ള
ഒരു ആശയവിനിമയം മാത്രമാണ്
ഞങ്ങൾ ആവശ്യപ്പെടുന്നത്.
അതിനാൽ, നിങ്ങളുടെ
ക്ലയന്റുകൾക്ക്
ഐ പി വിലാസങ്ങൾ നിശ്ചിതമായ
ആവശ്യമില്ല, സെർവറിന്
മുൻകൂർ അറിവ് ഉണ്ടാകാത്ത
തരത്തിലുള്ള ഐ.പി
വിലാസങ്ങൾ ഉണ്ടായിരിക്കാം,
പക്ഷെ സെർവറുകൾ ഐ.പി.
ക്ലയന്റ് ബന്ധിപ്പിക്കുന്ന
പോർട്ട് പോലെ. സോക്കറ്റ്
സോക്കറ്റിന്റെ ഫങ്ഷനുകളെ
വിളിക്കാൻ ഞങ്ങൾ
ആരംഭിച്ചു.
സോക്കറ്റ് ജെനിറ്റീവ്
നെയിം ആണ് ഞങ്ങൾ
ഒരു പ്രത്യേക പോർട്ട്
നൽകുന്നത്.

Telugu: 
అవసరం మొదటిది సర్వర్
IP చిరునామా మరియు
సర్వర్ యొక్క పోర్ట్
దీనికి కి క్లయింట్
ని అనుసందానిస్తాము.
మన క్లయింట్ వెరైటీ
ఐపి చిరునామాలను(variety
IP addresses) కలిగి ఉంటుంది,
కానీ ఈ సర్వర్కు
ఏకీకృత ఐపి అడ్రసును
కలిగి ఉండటం ముఖ్యం,
ఈ ఖచ్చితమైన ప్రాజెక్ట్
కోసం మనము క్లయింట్
నుండి సర్వర్ కి
ఒక మార్గం కమ్యూనికేషన్
(one way communication )అవసరం అని
నిరూపించాము.
సో, మీ ఖాతాదారులకు
స్థిర IP చిరునామాలు
అవసరం లేదు వారు
సర్వర్ కి ,సర్వర్
ముందు పరిజ్ఞానం
లేని IP చిరునామాలను
కలిగి ఉండవచ్చు.

English: 
for the client side again you call the functions
socket dot socket then you get the host name
assign the port point to remember is this
port number is similar to the servers port
number because your client will be connecting
to servers that particular port number and
this host or the host name we are talking
about this has to be the servers ip address
so s dot connect you connect to that particular
ip address of that server on that particular
port and you print that your data is being
received s dot receive and eventually you
close the connection so prior to this let
to show the basic circuit connection its again

Gujarati: 
પાડે છે, તેઓ python ફ્રેમવર્ક
દ્વારા રાશબરી પાઇ
(raspberry pi)ને આ સેન્સરને
સાંકળવા માટે લાઇબ્રેરી
પૂરી પાડે છે. તેથી,
આ પહેલેથી જ અમારા
અગાઉના લેક્ચર દરમિયાન
સ્થાપિત કરવામાં
આવી છે. હવે અમે સેન્ડસરમાંથી
ડેટા વાંચવા માટે
Adafruit_DHT.read_retry() ફંક્શનને
કૉલ કરવા જઈ રહ્યા
છીએ.
તેથી, તમે કોડ અને
આઉટપુટ જોઈ શકો છો
અથવા અગાઉના એક કરતા
વધુ અથવા ઓછા સમાન
લગતા જોઈ શકો છો.

Bengali: 
এই সেন্সারটি (sensor)
সংহত করার জন্য একটি
গ্রন্থগারও(library) দেয়।
সুতরাং, এটি ইতিমধ্যে
আমাদের পূর্ববর্তী
বক্তৃতা সময় স্থাপন(installed)
করা হয়েছে।
এখন আমরা সেন্সার
(senror) থেকে ডাটা পড়তে
এই অ্যাডাফ্রেট ডি
এইচ টি.রিড রিট্রাই
(Adafruit_DHT.read_retry()) ফাংশন(function)কল
করতে যাচ্ছি ।
তাই, আপনি কোডগুলি
এবং আউটপুটগুলি দেখতে
পারেন কম বেশি আগের
টির মতোই ।
আমরা অতিরিক্তভাবে
তাপমাত্রা পড়তে
যাচ্ছি যাতে শুধুমাত্র
আপনি আপনার আর্দ্রতা
রিডিং সংযুক্ত করতে
পারেন, কিন্তু পরীক্ষার

Malayalam: 
ഹോസ്റ്റ് നെയിം(host
name) എന്ന് വിളിക്കുന്നതിലൂടെ
നമുക്ക് പോർട്ടിലേക്ക്(port)
ബന്ധിക്കുന്നത്
രണ്ടാമത്തെ ആർഗുമെന്റായി
പോസിറ്റീവ് ആർഗ്യുമെന്റും
പോർട്ട് നമ്പറും
ആണ്. ഒരു ക്ലയന്റുമായി
അതിലേക്ക് ബന്ധിപ്പിക്കുന്നതിനായി
കാത്തിരിക്കുന്നു
ഞങ്ങളുടെ ശ്രവിച്ച
പ്രവർത്തനം ആരംഭിക്കുന്നു.
ഇപ്പോൾ, ഒരു ക്ലയന്റ്
കണക്ഷൻ സ്വീകരിച്ച്
ആ പ്രത്യേക പോർട്ടിൽ
നിങ്ങളുടെ സെർവറുമായി
കണക്ട് ചെയ്യുമ്പോൾ
ഇത് സൂചിപ്പിക്കുമ്പോൾ
അത് ഒരു വിലാസം സൃഷ്ടിക്കും,
ഈ വിലാസം സൂക്ഷിക്കപ്പെടും,
പിന്നീടൊരിക്കലും
ഉപയോഗിക്കുന്നതിനായി
നിങ്ങളുടെ ഡാറ്റയിൽ
വിവിധ ഡാറ്റാ ലോഗുകളിൽ
സെർവർ.
അതിനാൽ, നിങ്ങളുടെ
സെർവർ 20 വ്യത്യസ്ത
IP വിലാസങ്ങളിലേക്കോ
ക്ലയന്റുകളിലേക്കോ
കണക്റ്റുചെയ്തിരിക്കുക.
അതിനാൽ, ഈ 20 ഉപഭോക്താക്കൾ
നിങ്ങൾക്ക് വിവിധതരം
ഡാറ്റകൾ അയച്ചിട്ടുണ്ട്,
എന്നാൽ ഈ ക്ലയന്റുകളിൽ
ഓരോന്നിനും കൃത്യമായ
സ്ഥാനം നിങ്ങൾ അറിഞ്ഞിരിക്കണം.

Malayalam: 
അതിനാൽ, നിങ്ങൾക്ക്
പിന്നീട് ഡാറ്റ (data)
തരംതിരിച്ച് അതിലേക്ക്
കണക്റ്റുചെയ്യാനാകും.
അതിനാൽ, നിങ്ങളുടെ
കണക്ഷൻ സ്വീകരിച്ചുകഴിഞ്ഞാൽ
സെർസർ(sensor) അയയ്ക്കുമ്പോൾ
കണക്ഷൻ വിജയകരം അയയ്ക്കുന്നു,
ഒടുവിൽ സോക്കറ്റ്
ഉപഭോക്താവ് അവസാനിപ്പിക്കുമ്പോൾ
ഉപഭോക്താവിന് c.close()എന്ന
പേര് വിളിക്കുന്നു.
ഫങ്ഷൻ socket.socket ന് ശേഷം
നിങ്ങൾക്ക് ഹോസ്റ്റ്
നെയിം (host name) നല്കുക.
ഓർത്തിരിക്കേണ്ട
കാര്യമാണ് ഈ പോർട്ട്
നമ്പർ സെർവറുകൾ പോർട്ട്
നമ്പറിലേതുപോലെയാണ്,
കാരണം നിങ്ങളുടെ
സെർവറുകൾ സെർവറുകൾക്ക്
പ്രത്യേക പോർട്ട്
നമ്പറും ഈ ഹോസ്റ്റും
അല്ലെങ്കിൽ ഞങ്ങൾ
സംസാരിക്കുന്ന ഹോസ്റ്റ്
നാമവും(host name) സെർവറുകൾ
ഐപി അഡ്രസ്സുകളുമായി
ബന്ധിപ്പിക്കേണ്ടതാണ്.
അതിനാൽ, ആ പ്രത്യേക
പോർട്ടിൽ സെർവറിലെ
ആ പ്രത്യേക ഐപി വിലാസത്തിലേയ്ക്ക്
(IP address) കണക്ട് ചെയ്യാം.
നിങ്ങളുടെ ഡാറ്റ
s.receive ഒപ്പം ഒടുവിൽ

Gujarati: 
અમે તાપમાન વાંચવા
જઇ રહ્યા છીએ, વધુમાં
તમે તમારા ભેજ રેડીંગ
પણ જોડી શકો છો, પરંતુ
પરીક્ષણ માટે તમે
માત્ર તાપમાનના વાંચન
સાથે જઈ શકો છો. હવે
નેટવર્ક પર ડેટા
મોકલવા માટે અમે
એક ક્લાયન્ટ સર્વર
મોડેલનો ઉપયોગ કરીશું
અને તમે જે યુડીડી
આધારિત સોકેટની મદદ
લેવાના છો તે જોડાણ

Telugu: 
కానీ ఇది క్లయింట్
సర్వర్లు IP చిరునామా
గురించి తెలుసుకోవడం
,క్లయింట్ సర్వర్
తో అనుసంధానించుటకు
వెళ్ళే పోర్ట్ గురించి
తెలుసు కోవడం చాలా
ముఖ్యం.
కాబట్టి, మేము socket.socket
యొక్క విధులను పిలుస్తాము,
హోస్ట్ను మేము socket.gethostname
గా ఒక ప్రత్యేకమైన
పోర్ట్కు కేటాయించి,
హోస్ట్ పేరును మొదటి
వాదన (argument)మరియు పోర్ట్
సంఖ్య(పోర్ట్ నెంబర్)
ని రెండవ వాదన(argument)గా
పిలుస్తాము మరియు
మేము ఒక కక్షిదారునికి
(client)కనెక్ట్ చేయడానికి
వేచి ఉన్న విన్నప
ఫంక్షన్(calling function) ని
ప్రారంభిస్తాము
. ఇప్పుడు, ఒక కక్షిదారుడు(client)
కనెక్షన్ అంగీకరించినప్పుడు
మరియు ఆ సర్వర్లో

English: 
back to the basics we have this dht sensor
the vcc the ground and the data pin are connected
to their corresponding pins as defined in
the previous slides ah this raspberry pi is
connected to the network and we have already
put in the client program on the raspberry
pi we have already downloaded and install
the adafriut python library on this so we
are ready to go now again back to the presentation
so we are actually aiming to capture data
from this sensor create a socket transmit
a data to our remotely located server
in this case my desktop will be the server
and raspberry pi will be the client both of
these are physically separate but connected
via a singular network to which various other
devices are also connected but since we are
dealing with ip addresses and particular ports

Bengali: 
জন্য আপনি শুধু তাপমাত্রার
রিডিংএর সঙ্গে যেতে
পারেন।
এখন নেটওয়ার্কে
ডাটা পাঠানোর জন্য
আমরা একটি ক্লায়েন্ট(
Client) সার্ভার (server) মডেল
ব্যবহার করব এবং
একটি ইউডিপি ভিত্তিক
সকেটের সাহায্যে
আপনি যে সংযোগ স্থাপন
করতে যাচ্ছেন সেটিকে
একটি ইউ ডি পি (UDP) ভিত্তিক
সকেট তৈরি করবে যা
ক্লায়েন্ট( Client) থেকে
সার্ভারে তথ্য(data)
পাঠাবে এখন এই সকেট
প্রোগ্রামিং এর জন্য।

Bengali: 
এটি সাধারণত সকেটগুগুলি
একটি যৌথ সম্প্রচার
ব্যবস্থার 2 টি নোডের
মধ্যে একটি দ্বিমূখী
উপায়ে(2 way) যোগাযোগ
তৈরি করে, একটি নোড
সার্ভার(server) হিসাবে
বলা হয়, অন্য ক্লায়েন্ট(
Client) হিসাবে বলা হয়
হিসাবে সার্ভার(server)
কাজ (task) বা পরিষেবা
সম্পাদন করে ক্লায়েন্ট(
Client)দ্বারা অনুরোধ
করা হয়।
সুতরাং, আপনি কীভাবে
রাস্পবেরি পাই (raspberry
pi)এর উপর একটি সকেট
তৈরি করে এগিয়ে
যাচ্ছেন, এটি পূর্ববর্তী
বক্তৃতাগুলিতে রাস্পবেরি

Telugu: 
మీ సర్వర్కు కనెక్ట్
అయినప్పుడు అది సూచిస్తుంది,
అది ఒక చిరునామాను
(address) ఉత్పత్తి చేస్తుంది
మరియు ఈ చిరునామా
నిల్వ చేయబడుతుంది
మరియు తర్వాత మన
డేటాను వివిధ డేటా
లాగ్లలో ఉన్నసర్వర్
తో టైమ్ స్టాంప్(time
stamp) చేయడం కోసం ఉపయోగించబడుతుంది.
కాబట్టి, మన సర్వర్
20 విభిన్న IP చిరునామాలకు
లేదా క్లయింట్లకు
అనుసంధానించబడి
ఉన్నచో, ఈ 20 క్లయింట్లు
మనకు వివిధ రకాలైన
డేటాను పంపుతాయి,
కానీ ఈ ఖాతాదారుల(clients)
యొక్క ఖచ్చితమైన
ప్రదేశం గురించి
మీరు తెలుసుకోవాలి.
కాబట్టి, తర్వాత
మీరు డేటాను వేరుచేసి
దానితో అనుసంధానించవచ్చు.
కాబట్టి, మీ కనెక్షన్
ఆమోదించబడినప్పుడు,
సర్వర్ కనెక్షన్
విజయవంతంగా పంపుతుంది

English: 
so we can expect zero intemperance from other
devices so the client code for obtaining readings
from the sensor can be given as we define
a function called sensor data you can give
it any other name so we set the board ah set
the gpio to board mode we set the warning
to false sensor is adafruit unless called
dht dot am two three zero two then we ah graph
the humidity and temperature functions from
the sensor and we return it to the calling
function
so in this client code for creating the socket
as you can see the af under square inet has
been called and a socket data gram is being

Malayalam: 
നിങ്ങൾ കണക്ഷൻ ക്ലോസ്
ചെയ്യുന്നു.
അതിനാല്, ഇതിനു മുമ്പുള്ള
അടിസ്ഥാന സര്ക്യൂട്ട്(circuit)
കണക്ഷന് കാണിക്കാന്
നമ്മള് ഈ ഡിഎച്ച്ടി(DHT)
സെന്സര് Vcc ഉണ്ട്.
മുമ്പുള്ള സ്ലൈഡുകളിൽ
നിർവചിച്ചിരിക്കുന്ന
പോലെ നിലവും ഡാറ്റാ
പിൻയും അവയുടെ മുമ്പുള്ള
പിൻയിലെ കണക്ഷനുകളുമായി
ബന്ധിപ്പിച്ചിരിക്കുന്നു,
ഈ റാസ്പ്ബെറി പൈ
(raspberry pi) നെറ്റ്വർക്കിലേക്ക്
കണക്റ്റുചെയ്തിരിക്കുന്നു,
കൂടാതെ ഞങ്ങൾ ഇതിനകം
റസ്പ്ബെറി പൈയിൽ
ക്ലയന്റ് പ്രോഗ്രാമിൽ
നൽകിയിട്ടുണ്ട്.
ഈ. അതിനാൽ, ഞങ്ങൾ വീണ്ടും
അവതരണത്തിലേക്ക്
തിരിച്ചുപോകാൻ തയ്യാറാണ്.
അതിനാൽ, ഈ സെൻസറിൽ
നിന്ന് ഡാറ്റ പിടിച്ചെടുക്കാൻ
ഞങ്ങൾ യഥാർത്ഥത്തിൽ
ശ്രമിക്കുന്നു, ഞങ്ങളുടെ
വിദൂരമായി സ്ഥിതിചെയ്യുന്ന
സെർവറിലേക്ക് ഒരു
സോക്കറ്റ് ഡാറ്റ
ഒരു ട്രാൻസ്മിറ്റ്
ചെയ്യുകയാണ്.
ഈ സാഹചര്യത്തിൽ സെർവർ
ആയിരിക്കും സെർവറും
റാസ്പ്ബെറി പൈയും
ക്ലയന്റായിരിയ്ക്കുന്നത്.

Gujarati: 
સ્થાપિત કરવા માટે
યુડીપી આધારિત સોકેટ
બનાવશે જે ક્લાયન્ટથી
સર્વર પર ડેટા મોકલશે.
હવે આ સોકેટ પ્રોગ્રામિંગ
માટે,
આ સામાન્ય રીતે સોકેટ
નેટવર્ક બે નોડ વચ્ચે
બંને બાજુ સંદેશાવ્યવહાર
કરે છે, એક નોડને સર્વર
તરીકે કહેવામાં આવે
છે, જ્યારે અન્ય તરીકે
તેને ક્લાયન્ટ તરીકે
ઓળખવામાં આવે છે
જે સર્વર કાર્ય અથવા
સેવા કરે છે ક્લાયન્ટ

English: 
used for this particular program my pc has
this following ip and i opened up port number
ten thousand one if you can randomly choose
ports to create a socket so i open port ten
thousand one to accept connections from various
clients so my system client will try
on sending data over the network to the server
so h comma t that means ah these will be assigned
the humidity and temperature data from the
sensor data function which we defined in the
previous slide and we formatted in the terms
of a string and we transmitted over the socket
to that particular server address and when
this transmission is complete from ah from
ah input receipt from the user and the user
terminates the code the sock the close function
will execute
similarly the modification for a server side

Telugu: 
మరియు కనెక్షన్ ని
కస్టమర్ రద్ధు చేసినప్పుడు
c.close() ఫంక్షన్ కాల్
చేయాలి.
క్లయింట్ వైపు socket.socket
ఫంక్షన్ కాల్ చేసిన
అప్పుడు హోస్ట్ పేరు
పోర్ట్ కి కేటాయించబడుతుంది.
గుర్తుంచుకోవలసిన
పాయింట్ ఈ పోర్ట్
(port)సంఖ్య సర్వర్లు
పోర్ట్ సంఖ్య ను
పోలి ఉంటుంది ఎందుకంటే
మీ క్లయింట్లు సర్వర్లకు
ఈ ప్రత్యేక పోర్ట్
సంఖ్య ద్వారా కనెక్ట్
అవుతారు మరియు మనము
మాట్లాడుతున్న ఈ
హోస్ట్ లేదా హోస్ట్
పేరు (host name) సర్వర్లు
IP చిరునామా ఉండాలి.
కాబట్టి, మనము s.connect
ద్వారా ఆ ప్రత్యేక
పోర్టులో ఆ సర్వర్
యొక్క నిర్దిష్ట
IP చిరునామాకు కనెక్ట్
అవుతాము మరియు మనము
s.receive తో వచ్చిన డేటా
ని ప్రింట్ చేస్తాము
మరియు చివరికి మనము
కనెక్షన్ మూసివేస్తాము
( connection close).
కాబట్టి, దీనికి
ప్రాథమిక సర్క్యూట్
కనెక్షన్ను చూపించటానికి
వీలు ఉంది, ఈ DHT సెన్సార్

Malayalam: 
ഇവ രണ്ടും ശാരീരികമായി
വേർപെട്ടവയാണ്, എന്നാൽ
മറ്റു പല ഉപകരണങ്ങളും
കണക്ട് ചെയ്തിരിക്കുന്ന
ഒരു ഏകീകൃത ശൃംഖല
വഴി ബന്ധിപ്പിച്ചിരിക്കുന്നു,
എന്നാൽ ഞങ്ങൾ IP വിലാസങ്ങളും
പ്രത്യേക പോർട്ടുകളും
കൈകാര്യം ചെയ്യുന്നു.
അതുകൊണ്ട്, മറ്റ്
ഉപകരണങ്ങളിൽ നിന്ന്
പൂജ്യ ഇടപെടലുകൾ
ഞങ്ങൾ പ്രതീക്ഷിക്കാം.
അതിനാൽ, സെന്സറിൽ
നിന്ന് റീഡിംഗുകൾ
ലഭിക്കുന്ന ക്ലയന്റ്
കോഡ് (client code) നൽകാം,
നിങ്ങൾക്ക് മറ്റെന്തെങ്കിലും
പേര് നൽകാൻ കഴിയുന്ന
സെൻസർ ഡാറ്റ എന്ന
ഫങ്ഷൻ ഞങ്ങൾ നിർവ്വചിക്കും.
അതിനാൽ, ബോർഡ് സെൻസർ
ബോർഡ് മോഡ് സജ്ജമാക്കാൻ
ഞങ്ങൾ ഫൈനൽ സെൻസറിലേക്ക്
മുന്നറിയിപ്പ് സജ്ജമാക്കിയിട്ടുണ്ട്.
DHT.AM2302 എന്നു വിളിക്കപ്പെടുന്നതിനു
മുൻപായി അഡാഫ്റ്റർ
ആണോ അതോ സെൻററിൽ
നിന്ന് ഈർപ്പം, താപനില
ഫങ്ഷനുകൾ (temperature functions)
ഗ്രാഫ് ചെയ്ത് ഞങ്ങൾ

Gujarati: 
દ્વારા વિનંતી કરાયેલ
તો, રાશબરી પાઇ (raspberry
pi) પર સોકેટ બનાવીને
તમે આગળ કેવી રીતે
આગળ વધો છો?
તે પહેલાં રાશબરી
પાઇ (raspberry pi)ની પરિચયમાં
આવરી લેતા પહેલાના
પ્રવચનોમાં આવરી
લેવામાં આવ્યા હતા.
તેથી, socket.socket ફંકશન
વેરિયેબલમાં આપવું
એકદમ સરળ છે અને તમે
તે વેરિયેબલને બદલો
છો. તેથી, આ socket.socket ફંક્શનમાં
તેની પાસે ત્રણ દલીલો
છે પ્રથમ સૉકેટફૅમિલિ
બીજી સૉકેટ ટાઈપ
છે અને ત્રીજા એ પ્રોટોકોલ
છે જે મૂળભૂત શૂન્ય
સૉકેટફૅમિલિ દ્વારા
ક્યાં તો AF_UNIX અથવા
AF_INET હોય . તેથી, યુનિક્સ

Bengali: 
পাইয়ের(raspberry pi) প্রবর্তনের
আওতাভুক্ত ছিল।
সুতরাং, এটি একটি
পরিবর্তনশীল সকেট
সকেট (socket.socket) ফাংশন(function)
যা নির্ধারণ করা
বেশ সহজ এবং আপনি
যেটা নিপুন ভাবে
পরিবর্তন(manipulate)করতে
পারেন।
সুতরাং, এই সকেট সকেট
(socket.socket )ফাংশন(function)টির
তিনটি যুক্তি (arguments)
আছে প্রথমটি সকেট
(socket )ফ্যামিলি দ্বিতীয়
সকেট (socket )টাইপ এবং
তৃতীয়টি প্রোটোকল
(protocol)যা এমনি ভাবেই(default)
শূন্য সকেট (zero socket
)পরিবারটি এফ্_ঊনিক্স
(AF_UNIX )বা এফ্ আই নেট(AF_INET)
হতে পারে।
তাই, ঊনিক্স (UNIX) হিসাবে
আপনি মনে করেন যে
এটি মূলত ঊনিক্স
(UNIX) ভিত্তি পদ্ধতি
র (base systems) জন্য, খুব
সাধারণ প্রোগ্রামের
জন্য আমরা এফ্ আই
নেট(AF_INET) বা ইন্টারনেট

Malayalam: 
കോൾ ചെയ്യൽ ഫംഗ്ഷനിലേക്ക്
തിരിച്ച് വരും.
അതിനാല്, സോളിറ്റിക്കായി
സൃഷ്ടിക്കുന്ന ഈ
സോഷ്യല് കോഡില്,
നിങ്ങള് AF_INET കാണാന്
ശ്രമിച്ചിട്ടുണ്ടെന്നും
സോക്കറ്റ് ഡാറ്റാഗ്രാം
ഈ പ്രത്യേക പ്രോഗ്രാമിനായി
ഉപയോഗിക്കുമെന്നും
എന്റെ പിസിനു താഴെപ്പറയുന്ന
ഐപി ഉണ്ട്, ഞാന് പോര്ട്ട്
തുറന്നു നമ്പർ 10001
ഒരു സോക്കറ്റ് ഉണ്ടാക്കാനായി
നിങ്ങൾക്ക് പോർട്ട്സ്
തിരഞ്ഞെടുക്കാം.
അതിനാൽ, വിവിധ ക്ലയന്റുകളിൽ
നിന്നുള്ള കണക്ഷനുകൾ
സ്വീകരിക്കുന്നതിനായി
ഞാൻ പോർട്ട് 10001 തുറക്കുന്നു.
അതിനാൽ, സെർവർ വഴി
നെറ്റ്വർക്കിലൂടെ
ഡാറ്റ അയയ്ക്കാൻ
എന്റെ സിസ്റ്റം ക്ലയന്റ്
ശ്രമിക്കും.
അപ്പോൾ, h, t; അതായത്,
മുമ്പത്തെ സ്ലൈഡിൽ
നിർവചിച്ചിട്ടുള്ള
സെൻസർ ഡാറ്റ ഫംഗ്ഷനിൽ
നിന്നുള്ള ഈർപ്പം,
താപനില ഡാറ്റ (humidity
and temperature data) എന്നിവയെല്ലാം
ഒരു സ്ട്രിംഗിന്റെ
രൂപത്തിൽ ഫോർമാറ്റുചെയ്ത്,
ആ പ്രത്യേക സെർവർ
വിലാസത്തിലേക്ക്
സോക്കറ്റിന്റെ കൈമാറ്റം

Telugu: 
Vcc ను కలిగి ఉన్న ప్రాథమికాలకు
మళ్లీ మళ్లీ చేస్తాము;
మునుపటి స్లయిడ్లలో
నిర్వచించిన విధంగా
మైదానం(ground pin) మరియు
డేటా పిన్ అనుసంధానించబడిన
పిన్నులకు అనుసంధానించబడి
ఉంటాయి, ఈ రాస్ప్బెర్రీ
పై నెట్వర్క్కు అనుసంధానించబడి
ఉంది మరియు మనము
ఇప్పటికే క్లయింట్
ప్రోగ్రామ్లో రాస్ప్బెర్రీ
పై ఉంచుకున్నాము,
మరియు ఇప్పటికే మనము
అడిఫ్రుట్ (adifruit) పైథాన్
లైబ్రరీ(python library)ని
డౌన్లోడ్ చేసి, ఇన్స్టాల్
చేసుకున్నాము.
కాబట్టి, మనము తిరిగి
ప్రదర్శనలో(presentation)
కి తిరిగి వెళ్ళడానికి
సిద్ధంగా ఉన్నాము.
కాబట్టి, మనము ఈ సెన్సార్
నుండి డేటాను సంగ్రహించడానికి
ఉద్దేశించాము, ఒక
సాకెట్ మన రిమోట్గా
ఉన్న సర్వర్కు డేటాని
ప్రసారం చేస్తుంది.
ఈ సందర్భంలో మన డెస్క్టాప్(desktop)
సర్వర్ అవుతుంది
మరియు రాస్ప్బెర్రీ
pi క్లయింట్గా ఉంటుంది,
వీటిలో రెండు భౌతికంగా
ప్రత్యేకమైనవి, కానీ
ఇవి ఇతర అనేక డివైసెస్అనుసంధానించబడిన
ఏక నెట్వర్క్ ద్వారా
కనెక్ట్ అయ్యి వుంటాయి
కానీ, మనము IP చిరునామాలను
మరియు ప్రత్యేక పోర్టులతో
వ్యవహరిస్తున్నందున.
మనము ఇతర డివైసెస్
నుండి సున్నా జోక్యం
ఊహించగలము.
అందువల్ల, సెన్సార్
నుండి రీడింగ్స్
పొందేందుకు క్లయింట్
కోడ్ను ఇవ్వవచ్చు,
ఇది సెన్సార్ డేటా
అని పిలువబడే ఒక
ఫంక్షన్ ను మనము
ఇతర యే పేరునైనా
ఇవ్వవచ్చు.

Gujarati: 
તમને યાદ છે કે તે
મુખ્યત્વે UNIX આધાર
સિસ્ટમો પર છે, જ્યારે
સામાન્ય હેતુ પ્રોગ્રામિંગ
માટે આપણે AF_INET અથવા
ઇન્ટરનેટ પ્રોટોકોલ
સોકેટ પ્રકાર સાથે
જઈ રહ્યા છીએ ક્યાં
તો Socket_Stream અથવા Socket_data
gramહોઈ શકે છે.
હવે ક્લાઈન્ટમાંથી
સર્વર પર ડેટા મોકલતી
વખતે સર્વર માટે
બે સ્ક્રિપ્ટ્સ અને
ક્લાઈન્ટ માટે એકની
જરૂર છે અને બે વસ્તુઓની
જરૂર રહેશે પ્રથમ
સર્વરનું IP સરનામું
અને સર્વર નો પોર્ટ
કે જે તમારી ક્લાયન્ટ
બાંધશે.
તેથી, તમારી ક્લાયન્ટ
પાસે વિવિધ IP એડ્રેસ
હોઈ શકે છે, પરંતુ
તે મહત્વનું છે કે
તમારું સર્વર એક
જ IP સરનામું જાળવી
રાખે છે. જુઓ આ ચોક્કસ
પ્રોજેક્ટ માટે આ
ઈન્ફ્રાસ્ટ્રક્ચર
જે દર્શાવે છે કે
તમને માત્ર એક માર્ગીય
સંચારની જરૂર છે

Bengali: 
প্রোটোকল(protocol) সকেটের(socket)
সাথে যাব।
সকেটের ধরন(Socket)_স্ট্রিম
(Stream)সকেট(Socket) ডাটা
গ্রাম (datagram)হতে পারে।
এখন একটি ক্লায়েন্ট(Client)থেকে
একটি সার্ভারে (server
)একটি তথ্য(data) প্রেরণ
করার সময় আমাদের
2 টি স্ক্রিপ্ট প্রয়োজন
সার্ভারের (server) জন্য
একটি এবং ক্লায়েন্টের
( Client) জন্য একটি এবং
2 টি জিনিস অবশ্যই
প্রথমে দরকার সার্ভারের
আই পি(IP )ঠিকানা এবং
সার্ভার (server) পোর্ট
যা আপনার ক্লায়েন্টকে(
Client) যুক্ত রাখবে । তাই,
আপনার মক্কেলের(
Client) বিভিন্ন আইপি(IP)ঠিকানা

English: 
is you again create an af under score inet
and sock underscore data gram socket the address
will be the servers address and the port will
be the port which will be use for connecting
various clients it and sock dot bind it starts
the server port now while it is true it will
keep on infinitely looping the data and address
will be received from the socket and chunks
of four zero nine six bytes you open a any
text file called data log text or any other
name you want to chose it may even not be
a text file it may be a csv file also
so you use that file ah if you remember we
covered file reading and writing in programming

Bengali: 
থাকতে পারে, তবে এটি
গুরুত্বপূর্ণ যে
আপনার সার্ভারটি
এককআই পি( IP )ঠিকানাটি
ধরে রাখে, একটি নির্দিষ্ট
প্রজেক্টের জন্য
এই পরিকাঠামোর জন্য
আমরা আপনাকে দেখছি
শুধুমাত্র ক্লায়েন্টের(Client)সার্ভার(server)থেকে
আপনার একটি যোগাযোগের
উপায় প্রয়োজন।
তাই, আপনার ক্লায়েন্টদের(
Client) আইপি (IP)অ্যাড্রেস
গুলি নির্দিষ্ট করতে
হবে না কারণ তাদের
বিভিন্ন আইপি (IP)ঠিকানা
থাকতে পারে ।যার
সার্ভারের (server) কোন
পূর্বের জ্ঞান নেই,
তবে এটা খুবই গুরুত্বপূর্ণ
যে প্রতিটি ক্লায়েন্ট(
Client) সার্ভারের আই
পি( IP )ঠিকানা সম্পর্কে
সচেতন হওয়া উচিত
সেই সাথে পোর্ট যা
ক্লায়েন্টের ( Client)
সংযোগ করতে যাচ্ছে।
সুতরাং, আমরা সকেট
সকেট (socket.socket) এর ফাংশন(function)
কল করার সাথে বন্ধ
করা শুরু করি । আমরা
হোস্টকে socket.gethostname হিসাবে
নির্দিষ্ট একটি পোর্ট
বরাদ্দ করি এবং হোস্টের
নামটি কল করে পোর্টের
সাথে সংযুক্ত করে
প্রথম যুক্তি এবং
পোর্ট নম্বরটি দ্বিতীয়
যুক্তি হিসাবে এবং
আমরা আমাদের শ্রোতা
ফাংশন(listening function)টি
শুরু করি, যা ক্লায়েন্টের
(Client)সাথে সংযোগ স্থাপনের
জন্য অপেক্ষা করে।
এখন, সত্য যখন এটি
একটি ক্লায়েন্ট(
Client সংযোগ গ্রহণ করেছে
এবং সেই বিশেষ পোর্টে
আপনার সার্ভারের
(server) সাথে সংযুক্ত
হয়ে এটি একটি ঠিকানা
তৈরি করবে এবং এই
ঠিকানাটি সংরক্ষণ
করা যাবে এবং পরবর্তীতে
পরে আপনার তথ্য(data)
স্ট্যাম্পিং করার
সময় সার্ভার ব্যবহৃত
হবে বিভিন্ন তথ্য(data)
লগগুলিতে।
সুতরাং, কল্পনা করুন
আপনার সার্ভার (server)
20 টি ভিন্ন আইপি (IP)ঠিকানা
বা ক্লায়েন্ট দের
( Client) সাথে যুক্ত হয়েছে।
সুতরাং, এই 20 ক্লায়েন্ট(Client)
আপনাকে বিভিন্ন ডাটা
পাঠায় , কিন্তু আপনার
এই ক্লায়েন্টদের(Client)
প্রতিটি সঠিক অবস্থান
জানতে প্রয়োজন,
যাতে পরে আপনি ডাটা
বিভক্ত করতে এবং
এটি সংযোগ করতে পারেন।
সুতরাং, একবার আপনার
সংযোগ গ্রহণ করা
হলে এটি সার্ভারটি
সফলভাবে সংযোগ প্রেরণ
করে এবং শেষ পর্যন্ত
যখন সকেটটি ব্যবহারকারী
দ্বারা বন্ধ করা
হয় তখন আপনি ক্লায়েন্ট(Client)
পৃষ্ঠার জন্য সি.ক্লোজ
() (c.close ())ফাংশন(function)টি
কল করেন আবার আপনি
কল করেন ফাংশন(function)
socket.socket কল করেন তারপর
আপনার হোস্ট নামটি
পোর্ট বরাদ্দ পায়।
মনে রাখবেন, এই পোর্ট
নম্বরটি সার্ভার
(server) পোর্ট নম্বরের
অনুরূপ কারণ আপনার
ক্লায়েন্ট(Client) সার্ভার
সংযুক্ত হবে যে নির্দিষ্ট
পোর্ট নম্বর এবং
এই হোস্ট বা হোস্ট
নামটি আমরা এই বিষয়ে
কথা বলছি সার্ভারের
আই পি( IP ) ঠিকানা হতে
হবে।
সুতরাং, আপনি নির্দিষ্ট
পোর্টে সেই সার্ভার(server)
নির্দিষ্ট আইপি (IP)
ঠিকানা সংযুক্ত করতে

Telugu: 
కాబట్టి, మనం GPIO బోర్డు
మోడ్(board mode) కి సెట్
చేస్తాము.
మనము Adafruit హెచ్చరిక
ను తప్పుడు సెన్సార్కు(false
sensor) సెట్ చేస్తాము
లేదా DHT.AM2302 కు సెట్
చేస్తాము .ఇప్పుడు
మనము సెన్సార్ నుండి
తేమ మరియు ఉష్ణోగ్రత
ఫంక్షన్లను(functions)
గ్రాఫ్ చేస్తాము
మరియు దానిని కాల్
ఫంక్షన్కు తిరిగి
పంపుతాము.
కాబట్టి, మీరు ఈ సౌలభ్యం
కోసం ఈ క్లయింట్
కోడ్లో AF_INET అని పిలుస్తారు
మరియు సాకెట్ డాటాగ్రామ్
ఈ ప్రత్యేక ప్రోగ్రామ్
కోసం వాడుతున్నారు.
సంఖ్య 10001 మీరు యాదృచ్చికంగా
ఒక సాకెట్ సృష్టించడానికి
పోర్ట్సు ఎంచుకోండి
.కాబట్టి, వివిధ ఖాతాదారుల
నుండి కనెక్షన్లను
ఆమోదించడానికి పోర్ట్
10001 ను తెరిచాను.
సో, నా సిస్టమ్ క్లయింట్
సర్వర్కు డేటాను
సర్వర్కు పంపడానికి
ప్రయత్నిస్తుంది.
కాబట్టి, h, t; దీని
అర్ధం, ఇవి మునుపటి
స్లయిడ్లో నిర్వచించిన
సెన్సార్ డేటా ఫంక్షన్
నుండి తేమ మరియు
ఉష్ణోగ్రత డేటాను
కేటాయించబడతాయి
మరియు ఒక స్ట్రింగ్
యొక్క నిబంధనలో ఫార్మాట్
చేసి మరియు నిర్దిష్ట
సర్వర్ చిరునామాకు
సాకెట్లో బదిలీ చేస్తాము
మరియు ఈ ప్రసారం
పూర్తయినప్పుడు
యూజర్ నుండి ఇన్పుట్
రసీదు(input receipt) వస్తుంది
. ఇప్పుడు యూసర్ కోడ్
ని నిలిపేసి నప్పుడు
(code terminate) వినియోగదారుని
దగ్గరగా పనిచేసే
సాక్ కోడ్ అమలు చేస్తుంది.
అదేవిధంగా, సర్వర్
వైపు ఉన్న సవరణ మీరు
మళ్ళీ ఒక AF_INET ను సృష్టించి,
డేటా గ్రామ్ సాకెట్
ను అడ్రసు సర్వర్
యొక్క అడ్రస్ అవుతుంది
మరియు పోర్టు పోర్ట్
గా ఉంటుంది ఇది వివిద
ఖాతాదారులకు అనుసందానిస్తుంది
మరియు sock.bind అది సర్వర్
పోర్ట్ ను మొదల (start)వుతుంది.
ఇప్పుడు, అది నిజం
అయితే డేటా ని అనంతంగా
లూప్ (infinite looping) చేయడం
మరియు సోక్కెట్ నుండి
చిరునామా ను అందుకుంటుంది
నుండి మనము డేటా
లాగ్ టెక్స్ట్ లేదా
మనము ఎంచుకున్న ఇతర
పేరు తో అయిన టెక్స్ట్
ఫైల్ తెరిచిన 4096 బైట్లు
భాగాలు ఉంటాయి . అది
టెక్స్ట్ ఫైల్ కాకుండా
కూడా CSV ఫైల్ అయి ఉండవచ్చు.
కాబట్టి, మీరు ఆ ఫైల్ను(file)
ఉపయోగించినట్లయితే,
మేము ఫైల్ను చదవడం
మరియు వ్రాయడం ద్వారా
ప్రోగ్రామింగ్ ఇంటర్వ్యూలో
పైథాన్లో ప్రోగ్రామింగ్
చేస్తామని గుర్తుంచుకోండి.
కాబట్టి, ఇలాంటి
భావనను మీరు ఒక టెక్స్ట్
ఫైల్ను తెరిచి (open)
మరియు మీరు నెట్వర్క్లో
మీరు ఏ డేటాను స్వీకరిస్తున్నారో
మీరు టెక్స్ట్ ఫైల్కు
రాయడం (writing to text file) మొదలు
పెట్టడంతోపాటు, మీరు
డేటాను ముద్రించవచ్చును(print).
కాబట్టి, మీరు చూసినట్లయితే
మనము ఏదో ఒక అవుట్పుట్
పొందుతాము, మీ ఉష్ణోగ్రత
చదవడం తేమ మరియు
తదుపరిది ఉష్ణోగ్రత.
కాబట్టి, కామా ద్వారా
వేరు చేయబడుతుంది

Malayalam: 
നടത്തുകയും, ഈ സംപ്രേഷണം
പൂർത്തിയാകുമ്പോൾ
ഉപയോക്താവിൽ നിന്നും
ഇൻപുട്ട് രസീതിൽ
നിന്നും ഉപയോക്താവ്
അവസാനത്തെ പ്രവർത്തനം
പ്രവർത്തിപ്പിക്കുമ്പോൾ
സോക്ക് കോഡ് (code the
sock) അവസാനിക്കുന്നു.
അതുപോലെ, ഒരു സെർവർ
സൈറ്റിനുള്ള പരിഷ്കരണം
നിങ്ങൾ വീണ്ടും ഒരു
AF_INET സൃഷ്ടിക്കുകയും
അണ്ടർസ്കോർ ഡാറ്റ
ഗ്രാമി സോക്കറ്റ്
സൃഷ്ടിക്കുകയും
ചെയ്താൽ വിലാസം സെർവറുകളുടെ
വിലാസവും തുറമുഖവും
ആയിരിക്കും.
അതു ക്ലയന്റുകളുടെയും
അതു sock.bind സെർവർ പോർട്ട്
ആരംഭിക്കുന്നു.
ഇപ്പോൾ സത്യത്തിൽ
അത് അപ്രതീക്ഷിതമായി
ഡാറ്റ സൂക്ഷിക്കുകയും,
4096 ബൈറ്റുകൾക്കുള്ള
സോക്കറ്റുകളിൽ നിന്നും
ലഭ്യമാക്കുകയും
ചെയ്യും.
നിങ്ങൾ ഡാറ്റാ ലോഗ്
ടെക്സ്റ്റ് (data log text)
എന്ന് വിളിക്കുന്ന
ഏതെങ്കിലും ടെക്സ്റ്റ്
ഫയൽ അല്ലെങ്കിൽ നിങ്ങൾ
അത് തിരഞ്ഞെടുക്കുന്ന
മറ്റേതെങ്കിലും
പേര് തുറക്കണം.
ഒരു ടെക്സ്റ്റ് ഫയലും
ഒരു CSV ഫയലും ആയിരിക്കാം.
അങ്ങനെ, നിങ്ങൾ ഫയൽ
ഉപയോഗിക്കുമെന്നത്
ഓർക്കുകയാണെങ്കിൽ
ഫയൽ പ്രോഗ്രാമിംഗ്
(programming) ഇൻട്രാനെറ്റിൽ
പ്രോഗ്രാം വായിക്കുന്നതും
എഴുതുന്നതും പൈത്തണിലുള്ള
പ്രോഗ്രാമിങ്ങിനുള്ളതാണ്.
അതിനാൽ, സമാനമായ
ഒരു ആശയം നിങ്ങൾ
ഒരു ടെക്സ്റ്റ് ഫയൽ
തുറക്കുമ്പോഴും
നെറ്റ്വർക്കിൽ (network)
നിന്ന് നിങ്ങൾക്ക്
ലഭിക്കുന്ന വിവരവും
ടെക്സ്റ്റ് ഫയലിലേക്ക്
എഴുതാൻ തുടങ്ങും.
അങ്ങനെയാണെങ്കിൽ,
ഇതുപോലുള്ള ഒരു ഔട്ട്പുട്ട്
(output) ലഭിക്കുമെങ്കിൽ
ആദ്യം നിങ്ങളുടെ
വായനാ താപം ആർദ്രതയാണ്,
അടുത്തത് താപനിലയാണ്.
അതിനാൽ, ഒരു കോമ ക്ലൈന്റ്
ക്ലയന്റായി വേർതിരിച്ചുകൊണ്ട്,
ഈ ഡാറ്റ വീണ്ടും
പുതിയ മൂല്യങ്ങൾ
സൃഷ്ടിക്കുന്ന ഓരോ
ഡാറ്റയും ഓരോ തവണയും

English: 
introduction to programming in python so using
that similar concept you open a text file
and whatever data you are receiving over the
network you start writing to the text file
as well as if you want you can keep one printing
the data also so if you see we will get an
output something like this your temperature
readings ah first is humidity and the next
one is temperature so separated separated
by a comma yours client will keep on streaming
this data over and over again new values not
the old redundant values every time every
data pole it will generate a new value so
lets into the sever code first
so over here i have my udp server so i have
put in my ip and put in my port right data

Gujarati: 
જે ક્લાઈન્ટથી સર્વર
પર છે. તેથી, તમારા
ક્લાયન્ટ્સને IP એડ્રેસો
નિશ્ચિત કરવાની આવશ્યકતા
હોતી નથી કે તેઓ પાસે
વિવિધ IP સરનામાં હોઈ
શકે છે કે જેના વિશે
સર્વર પાસે કોઈ પૂર્વ
જ્ઞાન નથી, પરંતુ
તે ખૂબ જ મહત્વપૂર્ણ
છે કે દરેક અને દરેક
ક્લાયન્ટને સર્વરોના
IP સરનામાંથી પરિચિત
હોવા જોઈએ સાથે સાથે
પોર્ટ જે ક્લાયન્ટ
કનેક્ટ થવાનું છે.
તેથી, અમે socket.socket ફંકશનને
બોલાવવાથી શરૂ કરીએ
છીએ અમે હોસ્ટ ને
socket.gethostname આપીયે છીએ.અમે
ચોક્કસ પોર્ટ સોંપીએ
છીએ અને અમે હોસ્ટના
નામને પોર્ટ સાથે
જોડીએ છીએ તે પ્રથમ
દલીલ છે અને પોર્ટ
નંબરને બીજા દલીલ
તરીકે અને અમે અમારી
શ્રવણ ફંકશન શરૂ
કરીએ છીએ જે ક્લાયન્ટને
તેની સાથે જોડાવા
માટે રાહ જુએ છે. હવે,
જયારે સાચું હોય
ત્યારે ક્લાઈન્ટે
જોડાણ સ્વીકાર્યું
છે અને તે ચોક્કસ
પોર્ટ પર તમારા સર્વર

English: 
log txt for there was this file data log dot
txt i will deleted right this i have opened
in
append mode so that your data keeps on appending
on to the same file again and again without
overwriting the previous data so i start my
server now as you can see the server has started
it will wait for connections from the client
and until then it will do nothing now to access
the client or the raspberry pi we remotely
to this raspberry pi way system so we run
this particular program client dot py try
to doing this you may just check whether our
sensor is working fine or not let us try to
read some temperature just like the previous

Malayalam: 
പഴയ ആധികാരിക മൂല്യങ്ങളല്ല,
വീണ്ടും വീണ്ടും
പുതിയ മൂല്യങ്ങൾ
നിലനിർത്തും.
അതിനാൽ, നമുക്ക്
ആദ്യം sever കോഡ് നോക്കാം.
അതുകൊണ്ട് ഇവിടെ
എന്റെ UDP സെർവർ ഉണ്ട്.
ഈ ഫയൽ ഡാറ്റ ലോഗ്
ഡോട്ട് txt ഉള്ളതിനാൽ
എന്റെ ഐ.പി.യിൽ ഞാൻ
എന്റെ പോർട്ട് ശരിയായ
ഡാറ്റ ലോഗ് ടെക്സ്റ്റ്
(data log txt) ഇട്ടു.
ഞാൻ ഇത് append മോഡിൽ
തുറന്നു, ഇത് ഇല്ലാതാക്കും.
അതിനാൽ, നിങ്ങളുടെ
ഡാറ്റ മുമ്പത്തെ
ഡാറ്റ തിരുത്തിക്കൊണ്ടല്ലാതെ
അതേ ഫയലിലേക്ക് വീണ്ടും
വീണ്ടും ചേർക്കുന്നു.
സെർവർ ആരംഭിച്ചതുപോലെ
ഇപ്പോൾ എന്റെ സെർവർ
ആരംഭിക്കുന്നത്
ക്ലയന്റിൽ നിന്നും

Bengali: 
এস কানেক্ট (s.connect ) এবং
আপনার ডাটা(data)পাাওয়া
গেছে এস রিসিভ (s.receiv)
মুদ্রণ করুন এবং
শেষ পর্যন্ত আপনি
সংযোগ বন্ধ করুন।
তাই, এর আগে আমরা মৌলিক
সার্কিট সংযোগটি
দেখাতে চাই, এটি মূলত
আমাদের এই ডি এইচ
টি (DHT) সেন্সার(sensor)ভিসিসি
(Vcc) মূল বিষয়গুলিতে
ফিরে আসে ; মাটি এবং
ডাটা পিন(data pin) তাদের
অনুরূপ পিনের সাথে
যুক্ত হয় ।পূর্ববর্তী
স্লাইডে সংজ্ঞায়িত
হিসাবে এই রাস্পবেরিপাই

Telugu: 
క్లయింట్ ఈ డేటా
ని , ఈ డేటాను మళ్ళీ
మళ్ళీ స్ట్రీమింగ్
చేస్తే కొత్త విలువలు,
పాత విలువలు లేని
విలువలు వస్తాయి
. ప్రతి డేటా పోల్(poll)
ప్రతిసారి కొత్త
విలువను ఉత్పత్తి
చేస్తుంది.
కాబట్టి, మనం మొదట
విడదీయు సర్వర్ కోడ్
చూద్దాము.
కాబట్టి, ఇక్కడ పైగా
మన UDP సర్వర్ ఉంది.
కాబట్టి, నేను నా
IP లో ఉంచాను మరియు
ఈ ఫైల్ డేటా లాగ్
డాట్ టిఎక్స్ టి
(log.txt) లో ఉన్నందున
నా పోర్ట్ లో సరైన
డేటా లాగ్ టిఎక్స్
టి లో ఉంచాను.
నేను append మోడ్లో తెరిచిన
దాన్ని సరిగ్గా తొలగించాను.
కాబట్టి, మీ డేటా
గత డేటాను తిరిగి
రాయకుండా ఒకే ఫైల్లో
మళ్లీ మళ్లీ జోడించడాన్ని
కొనసాగిస్తుంది.
నేను ఇప్పుడు నా
సర్వర్ను ప్రారంభించాను,
అది క్లయింట్ నుండి
కనెక్షన్ల కోసం వేచి
ఉండాల్సిన అవసరం
ఉంది మరియు అప్పటి
వరకు అది ఏమీ చేయదు.
ఇప్పుడు క్లయింట్
లేదా రాస్ప్బెర్రీ
పై యాక్సెస్ చేయడానికి
మనము ఈ రస్బెర్రి
పై మార్గం వ్యవస్థకు
రిమోట్గా అనుసంధించ
బడతాము . కాబట్టి,
ఈ ప్రత్యేక ప్రోగ్రామ్
client.py ను రన్ చేద్దాము,
మన సెన్సార్ సమర్ధ
పనితీరు తనిఖీ చేయవచ్చు.
మునుపటి ఉపన్యాసంలో
లాగా నేను ఈ DHT తాత్కాలిక
ఫైల్ను అమలు చేయడానికి
ప్రయత్నిస్తాను,

Gujarati: 
સાથે જોડાયેલ છે,
તે એક સરનામું બનાવશે
અને આ સરનામું સંગ્રહિત
કરી શકાય છે અને પછીથી
તમારા ડેટાને સ્ટેમ્પિંગ
કરવા માટે ઉપયોગમાં
લેવાતા સમય પછી ઉપયોગ
કરવા માટે ઉપયોગમાં
લેવાશે.
વિવિધ ડેટા લોગ્સમાં
સર્વર તેથી, તમારા
તમારા સર્વરને 20 અલગ
અલગ IP એડ્રેસો અથવા
ક્લાયન્ટ્સથી કનેક્ટ
કરવામાં આવ્યાં છે
તે કલ્પના કરો. તેથી,
આ 20 ક્લાઈન્ટ તમને

Malayalam: 
കണക്ഷനുകൾക്കായി
കാത്തുനിൽക്കും,
അതിനുശേഷം ഒന്നും
ചെയ്യാനില്ല.
ഇപ്പോൾ ക്ലസ്റ്റോ
അല്ലെങ്കിൽ റാസ്ബെറി
പൈ (raspberry pi) ആക്സസ് ചെയ്യുന്നതിനായി
നമ്മൾ ഈ റാസ്പ്ബെറി
പൈ വഴിക്ക് വിദൂരമായി.
അങ്ങനെ, ഈ പ്രത്യേക
പ്രോഗ്രാം ക്ലയന്റ്
ഞങ്ങൾ പ്രവർത്തിപ്പിക്കുന്നു.

Telugu: 
సరే నేను పోర్టు
మార్చడానికి పయత్నిస్స్తాను
ఈ వ్యవస్థ స్పందించడం
లేదు ,నేను మళ్ళీ
ఈ రస్బెర్రి పై కి
లాగిన్ చేస్తాను.
కాబట్టి , ఇది నా సరైన
రస్బెర్రి పై .వాస్తవానికి
చాలా రస్బెర్రి పై
లు నెట్వర్క్ మీద

English: 
lecture i will try running this dht temp file
ok i need to change the port 

Gujarati: 
વિવિધ પ્રકારની માહિતી
મોકલતા હોય છે, પરંતુ
તમારે આ ક્લાયન્ટ્સની
ચોક્કસ સ્થાન જાણવાની
જરૂર છે. તેથી, તે
પછીથી તમે ડેટા અલગ
કરી અને તેને કનેક્ટ
કરી શકો છો.
તેથી, એકવાર તમારું
કનેક્શન સ્વીકાર્ય

Bengali: 
(raspberry pi) যৌথ সম্প্রচার
ব্যবস্থার (network) সাথে
যুক্ত এবং আমরা ইতিমধ্যে
রাস্পবেরিপাই (raspberry
pi) ক্লায়েন্ট(Client) প্রোগ্রামে
রেখেছি আমরা ইতিমধ্যে
ডাউনলোড(download) এবং
অ্যাডাফ্রেট পাইথন
(Adafruit Python ) লাইব্রেরি
স্থাপন(installed) করেছি
তাই, আমরা এখন আবার
উপস্থাপনা করতে ফিরে
যেতে প্রস্তুত।
সুতরাং, আমরা আসলে
এই সেন্সার (senror) থেকে
ডাটা নিয়ে গ্রহন
(capture)করার লক্ষ্যে
একটি সকেট আমাদের
দূরবর্তী স্থানে

Bengali: 
অবস্থিত সার্ভারে
(server) একটি ডাটা প্রেরণ
করে।
এই ক্ষেত্রে আমার
ডেস্কটপ (desktop) সার্ভার(server)
হবে এবং রাস্পবেরিপাই
(raspberry pi) ক্লায়েন্ট(
Client) হতে হবে, উভয়েরই
শারীরিকভাবে (physically)আলাদা,
তবে একাধিক ডিভাইসের
সাথে একসঙ্গে সংযুক্ত
ডিভাইসগুলি সংযুক্ত
থাকবে যেহেতু আমরা
আই পি( IP )ঠিকানা এবং
নির্দিষ্ট পোর্টগুলির
সাথে কাজ করছি । সুতরাং,
আমরা অন্যান্য ডিভাইস
থেকে শূন্য হস্তক্ষেপ
(zero interference)আশা করতে
পারি।
সুতরাং, সেন্সার
(senror) থেকে রিডিং পাওয়ার
জন্য ক্লায়েন্ট(Client)
কোড দেওয়া যেতে
পারে।
যেহেতু আমরা একটি
ফাংশন(function) সংজ্ঞায়িত
করেছি তাই সেন্সার(senror)
তথ্য(data) কে আপনি অন্য
কোন নাম দিতে পারেন।
তাই আমরা বোর্ড সেটটিকে
জিপিআইও থেকে বোর্ডের
মোডে সেট করেছি । আমরা
সাবধানে সেটাকে অ্যাডাপ্রেইন
বলে ডিএইচ টিএএম
২৩০২(DHT.AM2302) নামে সেট
করছি তারপর আমরা
সেন্সার (senror) থেকে
আর্দ্রতা ও তাপমাত্রা
ফাংশন(function) গ্রাফ
করি এবং আমরা কলিং
ফাংশন(function)টিতে ফিরে

Malayalam: 
ഇത് ചെയ്യുന്നത്
ഞങ്ങളുടെ സെന്സറെ
നന്നായി പ്രവർത്തിക്കുന്നുണ്ടോ
എന്ന് പരിശോധിച്ചതാണോ,
അല്ലെങ്കിൽ ഈ പ്രഭാഷണത്തെ
പോലെ ഞാൻ മുൻ അധ്യാപനം
പോലെ ചില താപനില
(temperature) വായിക്കാൻ
ശ്രമിക്കാറുണ്ടോ
എന്ന് പരിശോധിക്കാം,
ഈ DHT പരീക്ഷണ ഫയൽ പ്രവർത്തിപ്പിക്കാൻ
ശ്രമിക്കും, ശരി
എനിക്ക് വേണം പോർട്ട്
മാറ്റാൻ ഈ സിസ്റ്റം
പ്രതികരിക്കുന്നില്ല
ഞാൻ വീണ്ടും ഈ റാസ്പ്ബെറി
പൈയിൽ ലോഗിൻ ചെയ്യും.
അങ്ങനെ, ഇത് എന്റെ
ശരിയായ റാസ്ബെറി

Telugu: 
కనెక్ట్ అయి ఉండడం
మనం చూస్తాము.కాబట్టి,
మనము ఇప్పుడు సరిగ్గా
ఫైల్ కంటెంట్ ఏమిటి
తనిఖీ చేస్తాము;
కాబట్టి, మన ఎడిటర్లో
మన స్క్రిప్ట్ ఫైల్ను
తెరచిన ప్రదర్శనలో
ఇది కవర్ చేయబడింది.
అందువలన , మనము మొదటి
ఉష్ణోగ్రత సెన్సార్

English: 
ok this system is not responding i will login
to this raspberry pi again yes so this is
my correct raspberry pi actually we have lots
of raspberry pi s connected to over the network
so 
we check what exactly is the file content
so this was covered in the presentation we

Gujarati: 
થઈ ગયું પછી તે સર્વર
જે સફળ રીતે કનેક્શન
છે તે મોકલે છે અને
છેવટે જ્યારે વપરાશકર્તા
દ્વારા સોકેટને સમાપ્ત
કરવા માટે c.close() ફંકશન
બોલાવે છે. ક્લાઈન્ટની
બાજુ માટે socket.socket ફંકશન
પછી તમે હોસ્ટનું
નામ અને આપેલો પોર્ટને
મેળવો.
યાદ રાખો, આ પોર્ટ
નંબર એ સર્વર પોર્ટ

Telugu: 
సరిగ్గా పనిచేస్తుందో
లేదో తనిఖీ చేస్తాము.
ఈ కోడ్ను DHTTEMP.py నడుపుటకు(run)
ప్రయత్నిస్తాను
ఇది గత ఉపన్యాసంలో
చూపించాను.
కాబట్టి, పిన్స్
సరిగ్గా ఉంటే సెన్సార్
సరిగ్గా కనెక్ట్
చేయబడితే, అది టెర్మినల్పై
ఉష్ణోగ్రత విలువను
తిరిగి(return) రావాలని
అనుకుంటుంది.
కాబట్టి, సెన్సార్
సరిగా అనుసంధానితమైతే
25.89 డిగ్రీ సెల్సియస్
విలువ వస్తుంది,
ఇప్పుడు మనం మరింత
క్లిష్టంగా ఉన్న
భాగంతో మన క్లయింట్
ప్రోగ్రామ్ను పరిశీలించుదాము.
Sensor డాటా అనే ప్రత్యేక
ప్రోగ్రాం ద్వారా
సోక్కెట్ ని ఓపెన్
చేద్దాము.
దాని ఐ‌పి అడ్రెస్
నా యొక్క సర్వర్
లేదా డెస్క్టాప్
అడ్రెస్ ని కలిగి

Bengali: 
যাই।
সুতরাং, এই ক্লায়েন্ট(Client)
কোডে সকেট তৈরি করার
জন্য যেমন আপনি দেখতে
পাচ্ছেন এই এ এফ্
কিউ এল্ ই টি (AFQLET) কল
করা হয় এবং নির্দিষ্ট
প্রোগ্রামের জন্য
একটি সকেট ডাটাগ্রাম
ব্যবহার করা হচ্ছে
আমার পিসিটির এই
নিম্নলিখিত আইপি
(IP)আছে এবং আমি সংখ্যা
10001 এর পোর্ট চালু
করেছি যাতে আপনি
একটি সকেট তৈরি করতে
পোর্টগুলি এলোমেলোভাবে
বেছে নিতে পারেন
। আমি বিভিন্ন ক্লায়েন্ট(Client)
থেকে সংযোগ গ্রহণ
করতে পোর্ট 10001 খুলছি।
সুতরাং, আমার সিস্টেম
ক্লায়েন্ট(Client) নেটওয়ার্ক
থেকে সার্ভারে ডাটা
পাঠানোর চেষ্টা করবে।
সুতরাং, এইচ, টি; মানে,
এইগুলিকে সেন্সার
(senror) তথ্য(data) ফাংশন(function)
থেকে আর্দ্রতা এবং
তাপমাত্রা তথ্য(data)
জমা দেওয়া হবে যা
আমরা পূর্ববর্তী
স্লাইডে সংজ্ঞায়িত
করেছি এবং আমরা একটি
স্ট্রিং এর আকারে
বিন্যস্ত করেছি এবং
আমরা সকেটের উপর
যে নির্দিষ্টসার্ভার
(server) ঠিকানাতে প্রেরণ
করেছি এবং এই সংক্রমণ
সম্পূর্ণ হলে ব্যবহারকারী
থেকে ইনপুট রসিদ
থেকে এবং ব্যবহারকারী
বন্ধ ফাংশন(function) চালানো
হবে sock কোড ফাংশন বন্ধ
করবে।
একইভাবে,সার্ভার
(server) সাইডের সংশোধনটি
আবার আপনি একটি AF_INET
এবং সকেট আন্ডারস্কোর
ডাটাগ্রাম(datagram) সকেট
তৈরি করবেন ঠিকানাটি
সার্ভারের (server) ঠিকানা
হবে এবং পোর্টটি
এমন পোর্ট হতে হবে
যা বিভিন্ন সংযোগের
জন্য ব্যবহার করা
হবে।
এটি ক্লায়েন্ট(Client)
এবং sock.bind একটি সার্ভার
(server) পোর্ট শুরু হয়।
এখন এটি সত্য হলে,
এটি অসীমভাবে ডাটা
হ্রাস করবে এবং ঠিকানাটি
সকেট থেকে এবং 4096 বাইটের
অংশ থেকে প্রাপ্ত
হবে যা আপনি ডাটা
লগ লেখার নামে যেকোন
টেক্সট ফাইল খুলবেন
বা অন্য কোন নাম যা
আপনি পছন্দ করতে
চান তাও হতে পারে
না একটি টেক্সট ফাইল
এটি একটি CSV ফাইল হতে
পারে।
সুতরাং, আপনি যে ফাইলটি
ব্যবহার করেন যদি
আপনি মনে করেন যে
পাইথন প্রোগ্রামিংয়ের
প্রোগ্রামিং প্রেক্ষাপটে
আমরা পড়া এবং লেখা
ফাইলটি আবৃত করেছি।
সুতরাং, সেই একই ধারণার
ব্যবহার করে আপনি
একটি টেক্সট ফাইল
খুলুন এবং যে কোনও
তথ্য(data) যা আপনি নেটওয়ার্কে
পেয়ে যাচ্ছেন তা
পাঠ্য ফাইলে লিখতে
শুরু করলে পাশাপাশি

English: 
opened our script file in a editor so you
are first going to check whether our temperature
sensor working fine or not we will try running
this code dht temp dot py i have shown in
the previous lecture so once this is executed
if the sensor has been correctly connected
if the pins are correct it is suppose to return
ah ah temperature value on the terminal so
yes it appears that sensor is properly connected
returns a value of twenty five point eight
nine degree celsius now we can proceed with
the more complicated part we will have a look
at the client program

Gujarati: 
નંબર જેવું જ છે કારણ
કે તમારું ક્લાયન્ટ
સર્વર્સ સાથે કનેક્ટ
થશે, જે ચોક્કસ પોર્ટ
નંબર અને આ યજમાન
અથવા યજમાન નામ અમે
આ વિશે વાત કરી રહ્યા
છીએ તે સર્વરોનું
IP સરનામું હોવું જોઈએ.
તેથી, s.connect માં તમે
ચોક્કસ પોર્ટ પર
તમે તે સર્વરના ચોક્કસ
IP સરનામાં સાથે કનેક્ટ
કરો અને તમે s.receive માંથી
મળેલો તમારો ડેટા
છાપો।અને અંતે તમે
કનેક્શન બંધ કરો
છો.

Malayalam: 
പൈ (raspberry pi) ആണ്, യഥാർത്ഥത്തിൽ
നമുക്ക് റാസ്ബെറി
പൈ (raspberry pi) ധാരാളം നെറ്റ്വർക്കുകളുമായി
ബന്ധിപ്പിച്ചിരിക്കുന്നു.
അതുകൊണ്ട് ഞങ്ങൾ
പരിശോധിക്കുന്നു;
ഫയൽ ഉള്ളടക്കം കൃത്യമായി
എന്താണ്.
അതുപോലെ, ഞങ്ങളുടെ
സ്ക്രിപ്റ്റ് ഫയൽ
(script file) എഡിറ്ററിൽ
തുറന്ന അവതരണത്തിൽ
ഇത് ഉൾപ്പെടുത്തിയിരുന്നു.
അതിനാൽ, നിങ്ങൾ ആദ്യം
നമ്മുടെ താപനില സെൻസർ
നന്നായി പ്രവർത്തിക്കുന്നുണ്ടോയെന്ന്
പരിശോധിക്കുകയാണ്.
നമ്മൾ മുൻകോഡ് ചെയ്തിട്ടുള്ള
DHTTEMP.py ഈ കോഡ് പ്രവർത്തിപ്പിക്കാൻ
ശ്രമിക്കും.
അതിനാൽ, ഒരിക്കൽ
സെൻസർ ശരിയായി കണക്ട്
ചെയ്തിട്ടുണ്ടെങ്കിൽ
ഇത് എക്സിക്യൂട്ട്
(executed ) ചെയ്യുന്നു.
ഇത് ശരിയാണെങ്കിൽ
ടെർമിനലിൽ താപനില
മൂല്യം നൽകുമെന്ന്
കരുതുക.
അതെ, അതെ സെൻസർ ശരിയായി
കണക്ട് ചെയ്തു 25.89
ഡിഗ്രി സെൽഷ്യസ്
മൂല്യം ഇപ്പോൾ ഞങ്ങൾ
ക്ലയന്റ് പ്രോഗ്രാം
നോക്കും കൂടുതൽ സങ്കീർണ്ണമായ
ഭാഗം തുടരാൻ കഴിയും.

English: 
this is a same program which was covered in
the presentation we define a function called
sensor data we open up a socket aimed at this
ip address which is my server or desktop for
this particular port ten thousand one you
can change the port according to your needs
and you iteratively keep on pushing data to
this server so before beginning we will check
yes the server is still on it is still waiting
for incoming messages from any client which
will connect to it now a last made client
to send data to this server so we see it is

Gujarati: 
તેથી, આ પહેલાં આપણે
મૂળભૂત સર્કિટ કનેક્શન
બતાવવું જોઈએ, તે
મૂળ બેઝિક્સ પર ફરીથી
આવે છે, જેમાં અમારી
પાસે આ DHT સેન્સર Vcc;
અગાઉની સ્લાઇડ્સમાં
વ્યાખ્યાયિત ગ્રાઉન્ડ
અને ડેટા પિન તેમની
અનુરૂપ પીન સાથે
જોડાયેલા છે આ રાશબરી
પાઇ (raspberry pi) નેટવર્ક
સાથે જોડાયેલ છે
અને અમે પહેલાથી
જ રાશબરી પાઇ (raspberry
pi) પર ક્લાયન્ટ પ્રોગ્રામમાં
મૂકી દીધી છે જે અમે
પહેલાથી જ ડાઉનલોડ
કરી છે અને Adafruit Python
લાઇબ્રરીને સ્થાપિત
કરી છે. આ. તેથી, હવે
ફરી પ્રસ્તુતિ પર
પાછા જવા માટે અમે
તૈયાર છીએ. તેથી, અમે
વાસ્તવમાં આ સેન્સરથી
ડેટા મેળવવાનું લક્ષ્ય
બનાવી રહ્યા છીએ,
એક સૉકેટ અમારા દૂરસ્થ
સ્થિત સર્વર પર ડેટા
ટ્રાન્સમિટ કરે છે.
આ કિસ્સામાં મારા
ડેસ્કટૉપ સર્વર હશે
અને રાશબરી પાઇ (raspberry
pi) ક્લાયન્ટ હશે, આ
બન્ને બંને શારીરિક
રીતે અલગ છે, પરંતુ
એકવૈકલ્પિક નેટવર્ક
દ્વારા જોડાયેલ છે
કે જેમાં અન્ય ઉપકરણો
પણ જોડાયેલા છે, પરંતુ
અમે IP સરનામાં અને
ચોક્કસ પોર્ટ સાથે
કામ કરીએ છીએ. તેથી,
અમે અન્ય ઉપકરણોમાંથી
શૂન્ય હસ્તક્ષેપની
અપેક્ષા રાખી શકીએ
છીએ. તેથી, સેન્સરમાંથી
વાંચન મેળવવા માટેની
ક્લાઈન્ટ કોડ આપી
શકાય છે કારણ કે આપણે
સેન્સર ડેટા તરીકે
કાર્યિત કરેલા ફંક્શનને
વ્યાખ્યાયિત કરે
છે, તો તમે તેને કોઈ
અન્ય નામ આપી શકો
છો. તેથી, અમે બોર્ડને
GPIO બોર્ડ મોડ સેટ કર્યો
છે, અમે ખોટા સેન્સર
માટે ચેતવણી સેટ
કરી છે Adafruit જ્યાં
સુધી અમે DHT.AM2302 તરીકે
ઓળખાય નહીં ત્યાં
સુધી અમે સેન્સરથી
ભેજ અને તાપમાન કાર્યને
આલેખિત કરીએ છીએ
અને અમે તેને કૉલિંગ
ફંક્શનમાં પાછું
મોકલીએ છીએ.

Bengali: 
যদি আপনি চাইবেন
যে আপনি ডাটা মুদ্রণ
করতে পারেন।
সুতরাং, আপনি যদি
দেখতে পান আমরা এই
রকম একটি কিছু তাপমাত্রার
আউটপুট পাব যার প্রথম
আর্দ্রতা এবং পরের
একটি তাপমাত্রা হয়।
সুতরাং, একটি কমা
দ্বারা পৃথক আপনার
ক্লায়েন্ট( Client) এই
প্রবাহ(streaming) ডাটার
পুরানো অপ্রয়োজনীয়
মানের উপর না করে
আবার নতুন মানের
উপর করবে আর প্রতিটি
সময় প্রতিটি ডাটা
মেরু হবে যা একটি
নতুন মান উৎপন্ন
করবে সুতরাং, প্রথমে
আমরা সার্ভারের কোডটিতে
আলোকপাত করব।
সুতরাং, এখানে আমার
কাছে ইউ ডি পি (UDP)সার্ভার
(server) আছে।
সুতরাং, আমি আমার
আইপি (IP) এবং আমার পোর্টের
ডানদিকের ডাটা লগ
টি স্থাপন করেছি
কারণ এই ফাইলটি data
log dot txt ছিল।
এটি অ্যাপেন্ড মোডে
খুললেই আমি এটি মুছে
ফেলব।
অতএব, আপনার তথ্য(data)
পূর্ববর্তী তথ্য(data)র
ওপর ওভাররাইট ছাড়াও
একই ফাইলের সাথে
পুনরায় এবং পরে
পুনরায় সংযোগ করা
চালিয়ে যায়।
সুতরাং, আমি এখন আমার
সার্ভার (server) শুরু
করছি আপনি দেখতে
পারেন সার্ভার (server)
চালু হয়েছে এটি
ক্লায়েন্ট( Client) থেকে
সংযোগের জন্য অপেক্ষা
করবে এবংযতক্ষন না
হবে এটি কিছুই কাজ
করবে না।
এখন আমরা এই রাস্পবেরিপাই
(raspberry pi)পদ্ধতি (system)
তে দূরবর্তী ক্লায়েন্ট(
Client) বা রাস্পবেরিপাই
(raspberry pi) অ্যাক্সেস
করতে পারি । সুতরাং,
আমরা এই নির্দিষ্ট
প্রোগ্রাম client.py চালাই
।এটি করার চেষ্টা
করে আপনি শুধু আমাদের

Telugu: 
ఉంటుంది . మనము మన
అవసరాలకు తగినట్లుగా
పోర్ట్ మార్చవచ్చు
మరియు మనము ఈ సర్వర్కు
డేటాను నెట్టడం (pushing)మీద
ఉంచండి.
కాబట్టి, ముందుగానే
సర్వర్ను ఇంకా తనిఖీ
చేస్తాను, ఇంకా క్లయింట్
నుండి ఇన్కమింగ్
సందేశాల(incoming message) కోసం
ఎదురుచూస్తోంది,
ఈ సర్వర్కు డేటాను
పంపించడానికి చివరిగా
చేసిన క్లైంట్కు
ఇప్పుడు కనెక్ట్
అవుతుంది.
కాబట్టిమనముఈ విలువలు
74.3 మరియు 25.7 కు 2 విలువలను
పంపుతున్నట్లు చూస్తాము.
దానిలో మొదటిది తేమ
విలువ మరియు రెండవది
ఉష్ణోగ్రత రీడింగులు.
కాబట్టి, ఇది మళ్ళీ
మళ్ళీ డేటా ను పంపుతుంది

Malayalam: 
ഈ പ്രത്യേക പോർട്ട്
10001 എന്ന ഈ ഐ.പി. വിലാസത്തിനായുള്ള
ഒരു സെക്യൂരിറ്റിയുടെ
സെൻസർ തുറക്കുന്ന
ഒരു ഫങ്ഷൻ ഞങ്ങൾ
നിർവ്വചിച്ച അവതരണത്തിലാണ്
ഇത് കാണിച്ചിരിക്കുന്നത്.
നിങ്ങളുടെ ആവശ്യത്തിനനുസരിച്ച്
പോർട്ട് മാറ്റാം.
ഈ സെർവറിലേക്ക് ഡേറ്റാ
സൂക്ഷിച്ച് വയ്ക്കൂ.
അതിനാൽ സെർവറിൽ ഇപ്പോഴും
തുടരുന്നതിന് മുമ്പ്
സെർവറിൽ ഇപ്പോഴും
ഇൻകമിങ് സന്ദേശങ്ങൾക്കായി
കാത്തിരിക്കുകയാണ്.
ഇപ്പോൾ സെർവറിലേക്ക്
ഡേറ്റാ അയയ്ക്കുന്ന
അവസാനത്തെ ക്ലയന്റ്
ആയ ക്ലയന്റ് ഇപ്പോൾ
തന്നെ ബന്ധിപ്പിക്കും.
അതിനാൽ, ഇത് 74.3 ഉം
25.7 ഉം ആണ് 2 മൂല്യങ്ങൾ

Malayalam: 
അയക്കുന്നത്.
ആദ്യത്തേത് ഈർപ്പം
മൂന്നും രണ്ടാമത്തേത്
താപനില വായനകളിൽ
നിന്നാണ്.
അങ്ങനെ, ഇത് വീണ്ടും
വീണ്ടും വീണ്ടും
തുടരുന്നതായി തുടരും,
സെർവർ പേജിൽ ഉപയോക്താവ്
ഈ പ്രോഗ്രാം അവസാനിപ്പിക്കുന്നതുവരെ
നിങ്ങൾ ഇതേ കാര്യം
ആർദ്രത (temperature) വായനകളും
അനുയോജ്യമായ താപനില
വായനകളും സ്വീകരിക്കുന്നു.
അതിനാൽ, ഒരു പ്രദർശനത്തിനായി
ഞാൻ DHT സെൻസറിന് മുന്നിൽ
ഒരു മൽസരം ഉണ്ടാക്കുന്നു,
സെർവറിലെ അനുയോജ്യമായ
വായനകൾ നിങ്ങൾക്ക്
പരിശോധിക്കാനാകും.
അതിനാൽ, താപനില സാവധാനം
വർദ്ധിക്കുന്നു
എന്ന് നിങ്ങൾക് കാണാൻ
സാധിക്കും . അതിനാൽ,

Bengali: 
সেন্সার (senror) কাজ করছে
কিনা তা চেক করতে
পারেন।
আমাদের পূর্ববর্তী
বক্তৃতার মত কিছু
তাপমাত্রা পড়ার
চেষ্টা করি আমি এই
DHT টেম্প ফাইল চলমান
রাখার চেষ্টা করব,
ঠিক আছে আমি প্রয়োজনে
এই সিস্টেমটি ঠিক
উত্তর না দিলে পোর্ট
পরিবর্তন করব।
আমি এই রাস্পবেরিপাই
(raspberry pi) আবার নিশ্চয়
লগইন করব ।সুতরাং,
এই আমার সঠিক রাস্পবেরিপাই
(raspberry pi) আসলে আমাদের
রাস্পবেরিপাই (raspberry
pi) প্রচুর নেটওয়ার্ক
উপর সংযুক্ত করা
হয়।
সুতরাং, আমরা চেক
করব; ফাইল কন্টেন্ট
ঠিক কিনা।
সুতরাং এটি উপস্থাপনাটিতে
অন্তর্ভুক্ত আমরা
একটি সম্পাদকে আমাদের
স্ক্রিপ্ট ফাইল খুলেছি।
সুতরাং, আপনি প্রথম
আমাদের তাপমাত্রা
সেন্সার (senror) কাজ কিনা
তা পরীক্ষা করতে
যাচ্ছেন।
আমরা এই DHTTEMP.py কোড চালানোর
চেষ্টা করব যা আমি
পূর্ববর্তী বক্তৃতাতে
দেখিয়েছি । সুতরাং,
একবার যদি এটি কার্যকর
করা হয় যদি সেন্সার
(senror) সঠিকভাবে সংযুক্ত
করা হয় আর পিন সঠিক
হলে ফিরে এটি টার্মিনালের
উপর তাপমাত্রার মান
অনুমান করবে।
সুতরাং, হ্যাঁ এটি
প্রদর্শিত হয় যে
সেন্সার (senror) যথাযথভাবে
সংযুক্ত করা হয়
25.89 ডিগ্রি সেলসিয়াসের
একটি মান প্রদান
করে এখন আমরা আরো
জটিল অংশটিতে এগিয়ে

Telugu: 
.వినియోగదారుడు టెర్మినటే
చేస్తే ప్రోగ్రాం
ముగుస్తుంది ఇది
వరకు మీరు అదే విషయం
తేమ రీడింగ్స్ మరియు
సంబంధిత ఉష్ణోగ్రత
రీడింగులను పొందిందిదని
చూసం. కాబట్టి , ఒక
ప్రదర్శన కోసం నేను
DHT సెన్సార్ ముందు
ఒక మ్యాచ్ మండటం
మరియు మీరు సంబంధిత
రీడింగులను సర్వర్
వద్ద మార్చవచ్చు
తనిఖీ చేయవచ్చు.
కాబట్టి, ఉష్ణోగ్రత
నెమ్మదిగా పెరుగుతుందని
చూడండి.
కనుక, క్లయింట్ వైపున
అదే వైవిధ్యాలను
చూడగలిగితే మొత్తం
27 కి చేరుకుంటుంది.
ఇప్పుడు నా క్లయింట్
కోడ్ను నేను తొలగిస్తాను.

English: 
sending two values this seventy four point
three and twenty five point seven so first
one is for the humidity value and the second
one is from the temperature readings
so this will iteratively keep on going again
and again until the user terminates this program
over at the server side you see the same thing
is being received that humidity readings and
the corresponding temperature readings so
for a demonstration i light up a match in
front of the dht sensor and you can check
the corresponding readings change over at

Gujarati: 
તેથી, સોકેટ બનાવવા
માટે આ ક્લાયન્ટ
કોડમાં તમે જોઈ શકો
છો કે AF_INET ને કહેવામાં
આવ્યું છે અને આ ચોક્કસ
પ્રોગ્રામ માટે સોકેટ
ડેટાગ્રામનો ઉપયોગ
કરવામાં આવે છે, મારા
પીસીમાં આ IP છે અને
મેં પોર્ટ ખોલ્યું
નંબર 10001 જો તમે અવ્યવસ્થિત
રીતે કોઈ સૉક બનાવવા
માટે પોર્ટ પસંદ
કરી શકો છો. તેથી,
હું વિવિધ ગ્રાહકો
પાસેથી જોડાણોને
સ્વીકારવા માટે પોર્ટ
10001 ખોલું છું. તેથી,
મારું સિસ્ટમ ક્લાયન્ટ,
સર્વર પર નેટવર્ક
ડેટા મોકલવાનો પ્રયાસ
કરશે. તેથી, h, t; તેનો
અર્થ એ કે સેન્સર
ડેટા ફંક્શનથી આ
ભેજ અને તાપમાનના
ડેટાને અસાઇન કરવામાં
આવશે, જે અમે પહેલાની
સ્લાઇડમાં વ્યાખ્યાયિત
કર્યું છે અને અમે
સ્ટ્રીંગ ફોર્મેટ
કરેલ છે અને તે સોકેટ
પર તે ચોક્કસ સર્વર
સરનામા પર અને જ્યારે
આ ટ્રાન્સમિશન પૂર્ણ
થાય છે ત્યારે પ્રસારિત
થાય છે. વપરાશકર્તા
પાસેથી ઇનપુટ રસીદમાંથી
અને વપરાશકર્તા કોડ
સોકેટનું કલોઝ ફંકશન
કાર્ય બંધ કરશે.
એ જ રીતે, સર્વર બાજુ
માટેનું ફેરફાર ફરીથી
તમે AF_INET અને સૉક નીચા
ડેટા ગ્રામ સોકેટ
બનાવવો છો તે સરનામું
સર્વર્સનું સરનામું
હશે અને પોર્ટ હશે
જેનો ઉપયોગ વિવિધ
ક્લાઈન્ટો તેને અને
sock.bind તે સર્વર પોર્ટ
શરૂ થાય છે. હવે, જ્યારે
તે સાચું છે ત્યારે
તે ડેટાને અનંત લુકિંગ
રાખશે અને સરનામાંને
સોકેટમાંથી પ્રાપ્ત
થશે અને 4096 બાઇટ્સની
હિસ્સામાં તમે કોઈપણ
ટેક્સ્ટ ફાઇલને ડેટા
લોગ ટેક્સ્ટ અથવા
કોઈપણ અન્ય નામ કે
જે તમે પસંદ કરવા
માગો છો તેને ખોલી
શકો છો પણ તે ન પણ
હોઈ શકે એક ટેક્સ્ટ
ફાઇલ પણ તે CSV ફાઇલ
હોઈ શકે છે. તેથી,
તમે તે ફાઇલનો ઉપયોગ
કરો જો તમને યાદ છે
કે આપણે ફાઇલ વાંચવા
અને લખવા માટે પ્રોગ્રામિંગમાં
પરિચયમાં Python પ્રોગ્રામિંગ.
તેથી, તે સમાન વિચારનો
ઉપયોગ કરીને તમે
ટેક્સ્ટ ફાઇલ ખોલો
છો અને જે નેટવર્ક
પર તમે જે ડેટા પ્રાપ્ત
કરી રહ્યા છો તે ટેક્સ્ટ
ફાઇલમાં લખવાનું
શરૂ કરે છે અને જો

Malayalam: 
ഏറ്റവും കൂടുതൽ 27
വരെ എത്താൻ കഴിയുമ്പോൾ
നിങ്ങൾക്ക് ക്ലയന്റ്
സൈറ്റിൽ ഒരേ വ്യതിയാനങ്ങൾ
കാണാം.
ഇപ്പോൾ ഞാൻ എന്റെ
ക്ലയന്റ് കോഡ് അവസാനിപ്പിക്കും.
സോക്കറ്റ് ക്ലോസ്
ചെയ്ത് സോക്കറ്റ്
ക്ലോസ് ചെയ്ത് സോക്കറ്റ്
ക്ലോസ് ചെയ്താൽ സെർവർ
കോഡ് ശരിയായി വരുന്നത്
കാണാം.
അതിനാൽ, ഈ കോഡ് വീണ്ടും
ആരംഭിക്കുമ്പോൾ
എന്റെ സെർവർ ഈ കോഡ്
വീണ്ടും ആരംഭിക്കും.
അതിനാൽ, ഞങ്ങൾ ഒരു
ക്ലസ്റ്റായി ഒറ്റ
റാസ്ബെറി പൈ ഉപയോഗിച്ചും
ഒറ്റ സെന്സറിലൂടെയും

English: 
the server
so see the temperature is slowly increasing
so it has reach all most twenty seven you
can see the same variations over at the client
side now i will terminate my client code so
once this socket is close once i terminate
this will send a message closing socket and
closes down the socket you see the server

Bengali: 
যেতে পারি, আমরা ক্লায়েন্ট(
Client) প্রোগ্রামটি
দেখতে পাব।
এটি একটি একই প্রোগ্রাম
যা উপস্থাপনার মধ্যে
অন্তর্ভুক্ত ছিল
আমরা একটি ফাংশন(function)
যাকে সেন্সার ডাটা
বলতে পারি আমরা এই
আইপি (IP)অ্যাড্রেস
যা এইসার্ভার (server)
বা এই বিশেষ পোর্ট
10001 এর জন্য ডেস্কটপের
জন্য এই লক্ষ্যে
একটি সকেট খুলব যাতে
আপনি আপনার প্রয়োজন
অনুযায়ী পোর্ট পরিবর্তন
করতে পারেন এই সার্ভারে
ডাটা ধীরে ধীরে রাখার
কাজ করতে পারেন।
সুতরাং, শুরু করার
আগে আমরা পরীক্ষা
করব সার্ভারটি এখনও
যে কোনও ক্লায়েন্টের
থেকে ইনকামিং বার্তাগুলির
জন্য অপেক্ষা করছে
কিনা যা এই সার্ভারে
তথ্য(data) পাঠানোর জন্য
তৈরি এখন একটি সর্বশেষ
ক্লায়েন্ট।
সুতরাং, আপনি দেখতে
পাবেন এটি 2টি মান
74.3 এবং 25.7 পাঠাচ্ছে।
সুতরাং, প্রথমটি
আর্দ্রতার মানের

Telugu: 
కాబట్టి , ఒకసారి
ఈ సాకెట్ ను ముగించిన
తర్వాత నేను సోక్కెట్
ని టెర్మినతే చేసిన
తరువాత మనకి క్లోసింగ్
సోక్కెట్ సందేశం
వస్తుంది,సోక్కెట్
మూసివేయబడుతుంది
(socket closes) . మరియు మనము
చూసే సర్వర్ కోడ్
ఆగిపోయింది.
కాబట్టి, నేను మళ్ళీ
ఈ కోడ్ మొదలు చేసినప్పుడు
నా సర్వర్ మళ్ళీ
ఈ కోడ్ అందుకోవడం
ప్రారంభమవుతుంది.
కాబట్టి, ఇది సింగిల్
రాస్బెర్రి పై ని
ఒక క్లయింట్ వలె
మరియు ఒకే సెన్సార్ను

Gujarati: 
તમે ઇચ્છો તો તમે
ડેટાને પ્રિન્ટીંગ
પણ રાખી શકો છો.
તેથી, જો તમે જોશો
કે અમને એવું કંઈક
મળશે જેમ કે તમારું
તાપમાનનું વાંચન
પ્રથમ ભેજ છે અને
આગામી તાપમાન તાપમાન
છે તેથી, અલ્પવિરામ
દ્વારા અલગ પાડવામાં
આવેલ તમારું ક્લાયન્ટ
આ ડેટા સ્ટ્રિમિંગ
પર અને ફરીથી નવી
મૂલ્યો નહી રાખશે,
જ્યારે દરેક ડેટા
ધ્રુલે દર વખતે નકામા
મૂલ્યો નવો મૂલ્ય
પેદા કરશે. તેથી, ચાલો
પહેલા આપણે વિચ્છેદન
કોડમાં જોઈએ.
તેથી, અહીં મારી પાસે
મારી UDP સર્વર છે તેથી,
મેં મારુ IP મુક્યું
છે અને મારા પોર્ટ.
યોગ્ય ડેટા લોગ ટેક્સ્ટમાં
મૂકી છે કારણ કે આ
ફાઇલ ડેટા લોગ ડોટ
ટેક્સટ હતી. હું તેને
જોડવા માટે ખોલી
દઈશ. તેથી, કે તમારો
ડેટા પાછલા ડેટાને
ઓવરરાઇટ કર્યા વગર
સમાન ફાઇલ પર ફરીથી
અને ફરીથી ઉમેરતા
રહે છે. તેથી, હું
હવે મારા સર્વરને
શરૂ કરું છું કારણ
કે તમે જોઈ શકો છો
કે સર્વર શરૂ થઈ ગયું
છે, તે ક્લાઈન્ટમાંથી
કનેક્શન્સ માટે રાહ
જોશે અને ત્યાં સુધી
તે કશું કરશે નહીં.
હવે ક્લાઈન્ટ અથવા
રાશબરી પાઇ (raspberry pi)માં
પ્રવેશ કરવા માટે
અમે દૂરથી આ રાશબરી
પાઇ (raspberry pi) દ્વિ માર્ગીય
સિસ્ટમ છે. તેથી, અમે
આ ચોક્કસ પ્રોગ્રામ
client.py ને ચલાવીએ છીએ.
આ કરવા માટે પ્રયાસ

English: 
code has stopped coming in right so whenever
i start this code again my server will again
start receiving this code so this we demonstrated
using one single raspberry pi as a client
and one single sensor you can obviously include
multiple raspberry pis and multiple sensors
all sending data to this particular server
or a single ip at the port and another thing
we will check when this data is incoming into
the server initially i deleted this data log
dot txt file
now you see it has automatically created another
data log dot txt and this function once a
open it you see all the data has been stored

Gujarati: 
કરીએ તો તમે તપાસ
કરી શકો છો કે શું
આપણું સેન્સર કામ
કરી રહ્યું છે કે
નહીં. ચાલો આપણે તાપમાન
વાંચવાનો પ્રયત્ન
કરીયે, તે પહેલાંના
લેકચર જેવા કેટલાક,
હું આ DHT temp ફાઇલને
ચલાવવાનો પ્રયાસ
કરીશ, બરાબર મને જરૂર
છે પોર્ટ બદલવા માટે
આ સિસ્ટમ બરાબર જવાબ
નથી, હા, હું આ રાશબરી
પાઇ (raspberry pi)માં લોગિન
કરીશ. ફરીથી હા, તેથી,
આ મારી સાચી રાશબરી
પાઇ (raspberry pi) છે ખરેખર,
અમારી પાસે ઘણા બધા
રાશબરી પાઇ (raspberry pi)
નેટવર્ક પર જોડાયેલ
છે. તેથી, અમે તપાસીએ
છીએ; શું ફાઇલમાં
કન્ટેન્ટ બરાબર છે
!
તેથી, આ પ્રસ્તુતિમાં
આવરી લેવામાં આવ્યું
હતું, અમે અમારી સ્ક્રિપ્ટ
ફાઈલને એડિટરમાં
ખોલી હતી. તેથી, તમે
સૌ પ્રથમ તપાસો છો
કે આપણું તાપમાન
સેન્સર દંડ કામ કરે
છે કે નહીં.
અમે આ કોડને ચલાવવાનો
પ્રયાસ કરીશું DHTTEMP.py
મેં પહેલાના પ્રવચનમાં
બતાવ્યું છે. તેથી,
એકવાર આ અમલ થાય છે
જો સેન્સર યોગ્ય
રીતે જોડાયેલ હોય
તો જો પિન સાચી હોય
તો તે ટર્મિનલ પર
તાપમાનનું મૂલ્ય
પાછું લાવવા માગે
છે. તેથી, હા એવું
લાગે છે કે સેન્સર
યોગ્ય રીતે જોડાયેલ
છે તે 25.89 ડિગ્રી સેલ્સિયસની
કિંમત પરત આપે છે,
હવે આપણે વધુ જટિલ
ભાગ આગળ વધારી શકીએ
છીએ અમે ક્લાઈન્ટ
પ્રોગ્રામ પર એક
નજર જોઈશું.
આ એક સમાન પ્રોગ્રામ
છે જે પ્રસ્તુતિમાં
આવરી લેવામાં આવ્યું
હતું, આપણે સેન્સર
ડેટા તરીકે ઓળખાતા
ફંક્શનને વ્યાખ્યાયિત
કરીએ છીએ, જે આ IP એડ્રેસ
પર રાખેલ સોકેટ ખોલે
છે જે આ પોર્ટ માટેના
મારા સર્વર અથવા
ડેસ્કટૉપ છે જે તમે
તમારી જરૂરિયાતો
અનુસાર પોર્ટ બદલી
શકો છો અને તમે સ્થાયી
રીતે આ સર્વર પર ડેટાને
દબાણ કરતા રહેવું.
તેથી, શરુ થતાં પહેલાં
આપણે હા તપાસ કરીશું
કે સર્વર હજુ પણ તેના
પર છે તે હજુ પણ કોઈપણ
ક્લાયંટમાંથી આવનારા
સંદેશાઓ માટે રાહ
જોઈ રહ્યું છે જે
આ સર્વરને ડેટા મોકલવા
માટે છેલ્લે બનાવેલ
ક્લાયન્ટ છે. તેથી,
તમે જુઓ છો કે તે 2
કિંમતો આ 74.3 અને 25.7
મોકલી રહ્યું છે.
તેથી, સૌ પ્રથમ ભેજનું
મૂલ્ય છે અને બીજો
એક તાપમાનના વાંચનમાંથી
છે. તેથી, તે ફરીથી
ચાલુ થવાનું ચાલુ
રાખશે જ્યાં સુધી
વપરાશકર્તા આ પ્રોગ્રામને
સર્વર બાજુએ બંધ
ન કરે ત્યાં સુધી
તમે તે જ વસ્તુ મેળવી
શકો છો કે જે ભેજનું
વાંચન અને અનુરૂપ
તાપમાન રીડિંગ્સ
પ્રાપ્ત થાય છે. તેથી,
પ્રદર્શન માટે હું
ડીએચટી (DHT)સેન્સરની
સામે દીવાસળી સળગવું
છું અને તમે સર્વર
પર બદલાવ અનુરૂપ
જોઈ શકો છો જે વાંચનને
બદલી શકે છે .
તેથી, જુઓ તાપમાન
ધીમે ધીમે વધી રહ્યું
છે. તેથી, તે સૌથી
વધુ 27 સુધી પહોંચે
છે, તમે ક્લાયન્ટ
બાજુએ આ જ પ્રકારનો
તફાવત જોઈ શકો છો.
હવે હું મારા ક્લાયન્ટ

Malayalam: 
നിങ്ങൾക്ക് പ്രകടമാക്കുകയും
ചെയ്തു; വ്യക്തമായും,
ഈ സെർവറിലേക്കോ പോർട്ടിൽ
ഒരൊറ്റ ഐ.പി.യിലേക്കോ
ഡാറ്റ അയയ്ക്കുന്ന
ഒന്നിലധികം റാസ്ബെറി
പിസ്, ഒന്നിലധികം
സെൻസറുകൾ എന്നിവ
ഉൾപ്പെടുന്നു, ഈ
ഡാറ്റ സെർവറിലേക്ക്
ഇൻകമിംഗ് ചെയ്യുമ്പോൾ
ഞങ്ങൾ പരിശോധിക്കുന്ന
മറ്റൊരു കാര്യം ആദ്യം
ഞാൻ ഈ ഡാറ്റLog.txt ഫയൽ
ഇല്ലാതാക്കി.
ഇപ്പോൾ, ഇത് മറ്റൊരു
DataLog.txt ഉം അത് സ്വയം
തുറന്നു കഴിഞ്ഞാൽ,
എല്ലാ ഡാറ്റയും സൂക്ഷിച്ചിരിക്കുന്നതായി
നിങ്ങൾ കാണുന്നു.
അതിനാൽ, ഇത് സെർവർ
ലോഗ് (server log) ആയി ഉപയോഗിക്കാം
അല്ലെങ്കിൽ ഇത് ഉയർന്ന
പ്രോസസ്സിംഗിനു
വേണ്ടി വിവിധ അൽഗോരിതങ്ങൾ
ഉപയോഗിച്ച് ഉപയോഗിക്കാൻ

Bengali: 
থেকে এবং দ্বিতীয়টি
তাপমাত্রার রিডিং
থেকে হয়।
তাই, এটি বারবার চালু
রাখবে যতক্ষন না
ব্যবহারকারী এই প্রোগ্রামটি
সার্ভারের (server) দিকে
বন্ধ করে দেয় আপনি
একই জিনিসটি দেখতে
পাবেন যে আর্দ্রতার
পাঠ এবং সংশ্লিষ্ট
তাপমাত্রার পাঠ গুলির
জন্য।
সুতরাং, একটি প্রদর্শনের
জন্য আমি ডি এইচ টি
(DHT) সেন্সারের (senror)
সামনে একটি সমমান
তুলে ধরব যাতে আপনি
সার্ভারে যে সংশ্লিষ্ট
রিডিং পরিবর্তন হচ্ছে
তা পরীক্ষা করতে
পারেন।
সুতরাং, তাপমাত্রা
যে ধীরে ধীরে বৃদ্ধি
হয় তা দেখুন।
সুতরাং, এটি সর্বাধিক
27 পর্যন্ত পৌঁছেছে
যেখানে আপনি ক্লায়েন্টের(
Client) দিকে একই বৈচিত্র
দেখতে পারেন।
এখন আমি আমার ক্লায়েন্ট(
Client) কোড শেষ করব।
সুতরাং, একবার যদি
এই সকেট বন্ধ হয় আর
একবার আমি এটি বন্ধ
করলে এটি একটি বন্ধ

Telugu: 
ఉపయోగించి ప్రదర్శించబడినధి
; స్పష్టంగా, ఈ నిర్దిష్ట
సర్వర్కు లేదా పోర్ట్లో
ఒకే ఐపికి డేటాను
పంపుతున్న బహుళ రాస్ప్బెర్రీ
పిస్ మరియు బహుళ
సెన్సార్లను మరియు
ఈ డేటాను సర్వర్లోకి
ప్రవేశించినప్పుడు
మనము ఈ డేటా లాగ్
ట్క్స్ట్ ఫైల్ను(log.txt)
తొలగిస్తాము . ఇప్పుడు,
ఇది స్వయంచాలకంగా
మరో డేటా డేటాను(
DataLog.txt )సృష్టించింది.
DataLog.txt తెరిచి చూసిన
(open) తర్వాత మొత్తం
డేటా నిల్వ చేయబడిఉండడం
మనము గమనిస్తాము.
కాబట్టి, ఇది సర్వర్
లా ఉపయోగించబడుతుంది
లేదా అది అధిక ప్రాసెసింగ్
కోసం వివిధ అల్గోరిథంలతో(algorithms)
బలవంతంగా లాగబడవచ్చును
(export).

Malayalam: 
കഴിയും.
അതിനാൽ, നെറ്റ്വർക്കിൽ
വിവിധ സെൻസറുകളെ
സമന്വയിപ്പിക്കുന്നതിനും
ക്ലയന്റ് സെർവർ കണക്ഷൻ
(server connection) ഉണ്ടാക്കുന്നതിനും
ഞാൻ ചില അനുഭവങ്ങൾ
നേടിയിട്ടുണ്ട്,
ഇത് ഐ.ഒ.ടിയുടെ (IoT)
ഒരു ചെറിയ സ്പർശം
നിങ്ങൾക്ക് നൽകുമെന്ന്
ഞാൻ പ്രതീക്ഷിക്കുന്നു.
ഈ പ്രഭാഷണങ്ങളിൽ
നിങ്ങൾ പങ്കെടുക്കുന്ന
കോഴ്സും അടുത്ത പ്രഭാഷണത്തിൽ
വിവരങ്ങളുമായി എന്തുസംഭവിക്കും
എന്നതിനെക്കുറിച്ചു
കൂടുതൽ ഊന്നിപ്പറയുകയും,
കൃത്യമായി എങ്ങനെ
സംയോജിപ്പിക്കുകയും
ചെയ്യാം എന്ന് നിങ്ങൾക്ക്
കഴിയും, നിങ്ങൾക്ക്
ഡാറ്റ സംഭരിക്കാനാകുന്ന
ഡാറ്റ കൈമാറ്റം ചെയ്തേക്കാം.
നിങ്ങൾ സംഭരിക്കുന്ന
ഡാറ്റയും മറ്റ് അത്തരം
പ്രവർത്തനങ്ങളും
പരിഷ്ക്കരിക്കുക.
നന്ദി.

Telugu: 
కాబట్టి, నెట్వర్క్లో
వివిధ సెన్సార్లను
సమగ్రపరచడం మరియు
క్లయింట్ సర్వర్
కనెక్షన్ని సృష్టించడం
వంటి కొన్ని విషయాల
అనుభవాన్ని మీరు
పొందగలుగుతున్నారని
ఆశిస్తున్నాను మరియు
నేను ఈ IOT యొక్క కొంచెం
పరిచయం ఇచ్చాను . మీరు
హాజరు అయిన ఈ ఉపన్యాసాలు
, ఈ కోర్సు మరియు తర్వాతి
ఉపన్యాసంలో మేము
డేటాను ఏమి చేయాలనేదానిపై
మరింత దృష్టి పెట్టడం
జరుగుతుంది మరియు
సరిగ్గా డేటా ఏకీకృతం
( data integration) చేస్తాము
, మరియు డేటాను నిల్వ(data
stor ) చేయగలగడమ్ , డేటాను
ప్లాట్ చేయడమ్(graphs)
మీద మరింత దృష్టి
పెట్టడం జరుగుతుంది
. ధన్యవాదాలు.

English: 
so this can be used as the server log or it
can be extorted and use with various algorithms
for higher processing so i hope giving some
experience of integrating various sensors
over the network and creating a client server
connection and i hope this will give you a
little bit touch of this iot
the course for which you have been ah uh attending
these lectures and in the next lecture we
will be focusing more on what to do with the
data and what exactly ah can be integrated
can be done you can may be plot the data you
can store the data you can refine the data
you are storing and other such tasks
thank you

Gujarati: 
કોડને સમાપ્ત કરીશ.
તેથી, એકવાર આ સોકેટ
સમાપ્ત થઈ જાય તે
પછી તે એક સંદેશ સમાપન
સોકેટ મોકલશે અને
તમે જે સોકેટ જોઈ
શકો છો તે સર્વર કોડ
બંધ થઈ ગયું છે. તેથી,
જ્યારે પણ હું આ કોડ
ફરીથી શરૂ કરું છું
ત્યારે મારું સર્વર
ફરીથી આ કોડ પ્રાપ્ત
કરવાનું શરૂ કરશે.
તેથી, આ અમે એક ક્લાઈન્ટ
તરીકે એક રાશબરી
પાઇ (raspberry pi) અને એક
સિંગલ સેન્સર મદદથી
દર્સાવી શકો છો; દેખીતી
રીતે, રાશબરી પાઇ
(raspberry pi) અને વધુ સેન્સર
બધા મળીને આ ચોક્કસ
સર્વર અથવા પોર્ટ
પર એક IPને માહિતી
મોકલવા અને અન્ય
વસ્તુ તપાસ કરશે.જ્યારે
આ માહિતી સર્વર માં
આવાની છે એની શરૂઆતમાં
હું આ DataLog.txt ફાઈલ કાઢી
નાખીશ.
હવે, તમે જુઓ છો કે
તે આપમેળે અન્ય DataLog.txt
બનાવ્યું છે અને
આ ફંક્શન ખોલ્યા
પછી તમે જુઓ કે તમામ
ડેટા સંગ્રહિત કરવામાં
આવ્યો છે.
તેથી, આનો ઉપયોગ સર્વર
લોગ તરીકે થઈ શકે
છે અથવા તે ઉદ્ધત
કરી શકાય છે અને ઉચ્ચ
પ્રોસેસિંગ માટે
વિવિધ અલ્ગોરિથમ
સાથે ઉપયોગ કરી શકાય
છે.
તો, હું આશા રાખું
છું કે તમે નેટવર્ક
પર વિવિધ સેન્સર્સ
સંકલિત અને ક્લાયન્ટ
સર્વર કનેક્શન બનાવવાની
કેટલીક અનુભવ મેળવી
લીધી છે અને મને આશા
છે કે આ તમને IoTનો થોડો
અનુભવ આપશે. જે કોર્સ
માટે તમે આ પ્રવચનોમાં
અને આગળના વ્યાખ્યાનમાં
ભાગ લઈ રહ્યા છો, તે
માહિતી સાથે શું
કરવું તે અંગે અમે
વધુ ધ્યાન કેન્દ્રિત
કરીશું અને શું બરાબર
સંકલિત કરી શકાય
છે તે તમે કરી શકો
છો તે ડેટા તમે જે
ડેટાને સંગ્રહિત
કરી શકો છો તે આલેખિત
કરી શકો છો તમે સંચય
કરી રહ્યાં છો તે
ડેટા અને આવા અન્ય
કાર્યોને સુધારી
શકો છો. આભાર.

Bengali: 
করার বার্তা সকেটে
পাঠাবে এবং আপনি
দেখতে পাবেন সার্ভার
(server) কোড ডান দিকে
বন্ধ হয়ে আসছে সুতরাং,
যখনই আমি এই কোডটি
আবার শুরু করব তখন
আমার সার্ভার (server)
আবার এই কোডটি পেতে
শুরু করবে।
সুতরাং, এটি আমরা
একটি একক রাস্পবেরীপাই
ক্লায়েন্ট( Client) এবং
এক একক সেন্সার (senror)
হিসাবে ব্যবহার করতে
পারি; স্পষ্টতঃ একাধিক
রাস্পবেরি পাই এবং
একাধিক সেন্সার (senror)গুলি
এই নির্দিষ্ট সার্ভারে
ডাটা প্রেরণ করে
বা পোর্টে একক আইপি(IP)এবং
অন্য কোনও ডাটা সার্ভারে
আগমনের সময় আমরা
চেক করব ,যখন প্রথমে
আমরা এই ডাটা লগ ডট
টেক্সট (DataLog.txt )ফাইল
মুছে ফেলব।
এখন, আপনি দেখুন যে
এটি স্বয়ংক্রিয়ভাবে
আরেকটি ডাটা লগ ডট
টেক্সট (DataLog.txt ) ফাইল
তৈরি করেছে এবং একবার
এই ফাংশন(function)টি খুললে
আপনি দেখতে পাবেন
যে সমস্ত তথ্য(data)
সংরক্ষণ করা হয়েছে।
সুতরাং, এটি সার্ভার
(server) লগ হিসাবে ব্যবহার
করা যেতে পারে বা
এটি extorted এবং উচ্চ
প্রক্রিয়াজাত করণের
জন্য বিভিন্ন অ্যালগরিদমের
সাথে ব্যবহার করতে
পারেন।
তাই, আমি আশা করি আপনি
যৌথ সম্প্রচার ব্যবস্থার
(network) বিভিন্ন সেন্সার
(senror)কে সংহত করার এবং
ক্লায়েন্ট সার্ভার
(server)সংযোগ তৈরির কিছু

Bengali: 
অভিজ্ঞতা অর্জন করেছেন
এবং আমি আশা করি এটি
আই ও টি (IoT) এর একটি
সামান্য স্পর্শ আপনাকে
দেবে।
যে কোর্সটি আপনি
এই বক্তৃতাগুলিতে
এবং পরবর্তী বক্তৃতাতে
যোগদান করেছেন, আমরা
তথ্য(data) সম্পর্কে
কি কি বিষয়ে আরও
মনোযোগ কেন্দ্রীভূত
করে থাকব এবং ঠিক
কীভাবে ডাটা (data) সমন্বিত
করা যেতে পারে তা
আপনি যা করতে পারেন
তা হল আপনি সেই তথ্যটি
সংরক্ষণ করতে পারেন
,আপনি সংরক্ষণ করা
হয় তথ্য(data) সংশোধন
এবং অন্যান্য কাজ
করতে পারেন । ধন্যবাদ.
