- Видео 78
- Просмотров 174 801
Electrical Engineering by djameling
Добавлен 30 июн 2016
فناة تعنى بكل ما له علاقة بالهندسة الكهربائية
Видео
GSM based pump water control : second test
Просмотров 162 месяца назад
GSM based pump water control : second test
GSM based Water Pump Control
Просмотров 442 месяца назад
The GSM-based Water Pump Control system is designed to provide flexible and efficient management of water pumps, catering to both manual and remote operation
Water Pump Control: Access Point Mode:
Просмотров 582 месяца назад
The Access Point (APM) Mode allows the user to enter and configure various settings required by the GSM-based Pump Control system. This mode is essential for initializing the system with necessary information such as network credentials and operational parameters.
IOT based-Water Pump Control : Automatic Water Level Control
Просмотров 172 месяца назад
The IOT-based Water Pump Control system is designed to provide flexible and efficient management of water pumps, catering to both manual and remote operation
GSM based water pump control: Parametres configuration
Просмотров 162 месяца назад
GSM based water pump control: Parametres configuration
GSM based Water Pump Control: First test
Просмотров 262 месяца назад
GSM based Water Pump Control: First test
Arduino based Gas Security System نظام حماية من تسرب الغاز
Просмотров 2062 года назад
مشروع بسيط للحماية من تسرب الغاز. الجهاز مزود بمروحة لطرد الغاز السام و شاشة lcd تعرض كل من نسبة الغاز . عند تحسس غاز يقوم البرنامج بشكل الي بإغلاق صمام الغاز وكذالك فتح النافذة وتشغيل المروحة. وعند وصول الغاز إلى نسب معقولة يرجع كل شي إلى الوضع العادي.
control relays using home assistant
Просмотров 682 года назад
#Home_assistant .. 🚸الفيديو يوضح مثال عن التحكم في إضاءة ثمانية غرف بالإضافة إلى استقبال مختلف قراءات حساسات الحرارة والرطوبة وتركيز غاز ثاني أكسيد الكربون في الجو باستعمال home assistant.
Controlling everything using Arduino ESP8266 ESP-01, Arduino Mega and Node-RED dashboard
Просмотров 4692 года назад
Controlling everything using Arduino ESP-01 and Node-RED dashboard
Minimum d'une fonction par PSO ( Particle Swarm Optimization)
Просмотров 2842 года назад
download drive.google.com/drive/folders/1qqen7JKp_hFfh48oIrGz2_2Hb-TKghaB?usp=sharing
Optimisation d'un régulateur PID par la méthode PSO (Particle Swarm Optimization)
Просмотров 5 тыс.2 года назад
download drive.google.com/drive/folders/1vFbYCBV9luQ7umVulNG2oFdg-Tf3x O?usp=sharing
Automatisation et Commande d'une serre agricole à base d'une carte Arduino
Просмотров 5632 года назад
Automatisation et Commande d'une serre agricole à base d'une carte Arduino
Modélisation d'un Système NL via les modèles de Takagi-Sugéno (Modeling of a NLS via T-S models )
Просмотров 4262 года назад
Modélisation d'un Système NL via les modèles de Takagi-Sugéno (Modeling of a NLS via T-S models )
Commande d'un MCC par retour d'état (State Feedback Control for DC-Motor)
Просмотров 1,2 тыс.2 года назад
Commande d'un MCC par retour d'état (State Feedback Control for DC-Motor)
Commande PI d'un hacheur dévolteur (PI control of dc-dc buck converter)
Просмотров 6262 года назад
Commande PI d'un hacheur dévolteur (PI control of dc-dc buck converter)
Simulation d'un hacheur parallèle (DC-DC Boost Converter )
Просмотров 5 тыс.3 года назад
Simulation d'un hacheur parallèle (DC-DC Boost Converter )
On-Off Temperature Control (ISIS Proteus + PCB design )
Просмотров 3423 года назад
On-Off Temperature Control (ISIS Proteus PCB design )
PCB for DC Motor Control using Analog Electronic PID Controllers | Closed-loop Control Systems
Просмотров 2343 года назад
PCB for DC Motor Control using Analog Electronic PID Controllers | Closed-loop Control Systems
Real-time Implementation of RBF Neural Network-Based Model Reference Adaptive Control using Arduino.
Просмотров 4563 года назад
Real-time Implementation of RBF Neural Network-Based Model Reference Adaptive Control using Arduino.
PID Controller based on RBF Neural Network and Arduino for a Boost Converter
Просмотров 1,5 тыс.3 года назад
PID Controller based on RBF Neural Network and Arduino for a Boost Converter
Real-time identification of a boost converter model using RBFNN and Arduino Nano
Просмотров 2563 года назад
Real-time identification of a boost converter model using RBFNN and Arduino Nano
Arduino-Based Identification of Systems using RBF Neural Network
Просмотров 5363 года назад
Arduino-Based Identification of Systems using RBF Neural Network
Output Voltage Control for a dc-dc boost Converter using Labview and Arduino
Просмотров 6973 года назад
Output Voltage Control for a dc-dc boost Converter using Labview and Arduino
Real-time implementation of an Adaptive Neural Controller for a dc-dc boost Converter.
Просмотров 4193 года назад
Real-time implementation of an Adaptive Neural Controller for a dc-dc boost Converter.
مشروع جد ممتاز يقوم بحلول العديد من المشاكل... فكرة ممتازة و ناجحة وطريقة العمل متقنة استاذ
Had to watch it on mute. What’s that shit music behind?
can i get the file for the simulink?
GAGO! HAHAHAHAH
Waste of my precious time
Why even upload the video if you're not showing how the ann is made. Most of your viewers came to see that. Not on the difference btn the traditional one and this we already know ann works better.
@all Did anyone got clue of adaptive neural network PI controller?
في قيمة u(t) راهي معكوسة ولا راني غالط ارجو رد؟
i need libraries. can you send me please?
Hello can I gave the code please?
code pls
//PI parametre double ki=20.57; double kp=1.28; //initalisation des variable double erreur; //1'erreur double input; double output; double Setpoint; double erreur_1; double out; int PWM=9;//pin de commande #include<LiquidCrystal.h> //initialize the library with the numbers of the interface pins LiquidCrystal lcd( 13, 12, 11, 10, 5, 8); void setup(){ lcd.begin(16, 2); output=0; erreur=0; out=0; } void loop(){ Setpoint=10; input=(24*analogRead(A1))/1023; double pw=Calcul_PID(input); analogWrite(PWM,pw ); lcd.setCursor(0, 0); lcd.print("Sortie"); lcd.setCursor(10, 0); lcd.print("input"); lcd.setCursor(0, 1); lcd.print("Sortie_d"); lcd.setCursor(10, 1); lcd.print(Setpoint); delay (10); } //Fonction q calule les la sortie de regulature PI double Calcul_PID(double inp){ erreur=Setpoint-inp; out=out+kp* (erreur-erreur_1) +ki*erreur; erreur_1=erreur; return out; }
deja il est 1 ddu tam le boug m'apprends la synthèse d'un régulateur PI avec un clope à la main un pack de teil d'eau j'suis ravi, ça me régale, merci
sorry sir i wanna ask, in code any Input=(24*analogRead(A1)/1023); could you tell me to get result 24, from where sir 24, maybe formula
can you make an updated version?
Thank You so Much
Hello sir..am subhankar, I am a m.tech student,my final year project I adaptive pid controller design for csth , please kindly help me how to do this project... Kindly give your social media (linkdin or email or mobile number)
iam working on the same project, did you find something ?
Hi, can you share projects file and code for arduino please?
Wow, so this video was entirely useless
Merci , svp , comment faire avec convertisseur 4order ??
what is the frequency of PWM and how can we change it?
31lkhz
Is there any difference between the output voltage in the simulink and the real output voltage? Did you change the PID parameters?
Very Good. Where can I find and refer the Schematic and Program?
why did you multiplex the input to the AdapNN with the feedback and error and the clock?
How many frequency?
31khz
May i know how to contact you?
Beautiful
Beautiful 🏆🏆🏆🏆
Well
Good class
nice
Wow
Amazing
I need your help to build a neural network control in MATLAB .give me your Facebook
please did you find something ?
Did you mean adaptive had changed its P,I parameter during going to set point?
please give the code
The music is very annoying!
hi pleas can u help me ?
Contact me m.facebook.com/djameling
did you get the code if you could you please send it thank you
GReat Video, please, Can you share it for me ? gmail”quyenvipdragon@gmail.com”
السلام عليكم ورحمة الله وبركاته اخي خصني برنامج تع هذا ربي يخليك Traceur de caractéristiques des panneaux PV à base d'arduino V I
وعليكم السلام. للاسف اخي الكريم لم اشتغل على هذا الموضوع من قبل
السلام عليكم ورحمة الله وبركاته مساء الخير استاذ محتاج مساعدة في برنامج اردوينو Réalisation un banc de caractéristiques v I de module photovoltaïque
merci pour le vidéo, mais je vous voir le vidéo des le départ a la fin avec plus de détailles et d’explications
merci pour vos vidéo, je vous prie de m’expliquer la commande des convertisseur dc dc avec arduino avec plus de détailles
salem 3alaykom; est ce quil ya la partie 1 de ce video et la partie théorique je les ai pas trouvé
aussi :'(
ruclips.net/video/X-iHsfZTGGw/видео.html
Please .. can you share it for adaptNN_pi block. Because I need it.Or any information about how to obtain the block mohibribrber@gmail.com
it is not explained in detail, would you like to sell it?
Guy...Can you share docs? Everybody need this insight. Please
can you send me simulink file please. e-mail: dursun5@hotmail.com
Nice work, did you post code somewhere?
can you please explain the annpi subsystem?
Revisa como se llaman tus pushbotons y los textos, en mi caso eran 5 y 1 en vez de 6 y 2 si algún día lo implementas te dejo aquí el código persona del futuro que vino a ver el video JAJA, de nada. %Inicializacion de arduino clear a; global a; a=arduino(COM3); %Pushbutton START %arduino pins inicializacion global a; a.pinMode(22,'ouput'); a.pinMode(9,'output'); cla; %clear axes %get the value of the threshold and time simulation h=findobj(gcbf,'tag','edit1'); Threshold=str2num(get(h,'String')); h=findobj(gcbf,'Tag','edit3'); tim=str2num(get(h,'String')); timesimulation=(3*tim)/21; %test if the edit text of threshold is impty or character stat=isempty(Threshold); stat1=ischar(Threshold); if (stat1==1)|(stat==0); %initialization of the two variables to use it in the plot x=0; x1=0; %for loop to measure the gas level for i=1:0.1:timesimulation; Gas=analogRead(a,15);%gas level measurement pause(0.1);%pause during 0.1s x=[x,Gas]; x1=[x1,Threshold]; plot(handles.axes1,x,'LineWidth',2);%plot gas levelas a function of time} xlabel('Time(s)'); ylabel('Gas Level'); % set the value of the gas level in edit text 2 set(handles.edit2,'String',num2str(Gas)); %testing if the gas level is biger than the threshold if (Gas>Threshold) a.digitalWrite(22,0);%turn off the green LED a.digitalWrite(9,1);%turn On the red LD a.digitalWrite(10,255);%switch on the FAN set(handles.pushbutton2,'backgroundColor','red'); set(handles.pushbutton2,'foregroundColor','red'); set(handles.text6,'String','The level density of gas is not accepted'); else a.digitalWrite(22,1);%turn on the green LED a.digitalWrite(9,0);%turn Off the red LD a.digitalWrite(10,0);%switch off the FAN set(handles.pushbutton2,'backgroundColor','green'); set(handles.text6,'String','Gas level is in the rang'); set(handles.pushbutton2,'foregroundColor','green'); set(handles.text6,'String','Gas level accepted'); end end hold on plot(handles.axes1,x1,'LineWidth',2); legend('Gas level','Threshold') else warndlg('please enter a correct value of Threshold') end
No opera