Iskomunidad - User contributions [en]

Jun Cruz Reyes

2023-04-30T22:14:06Z

Elijah.lingbanan: /* Courses handled */

__TOC__

== Administrative Positions ==

==Courses handled==

== Publications ==

== Awards and Recognitions ==

==See Also==

[[Category:UP People]]

File:Processing Code for temp sensor.pdf

2014-05-13T03:21:15Z

Elijah.lingbanan:

File:Arduino Code for temp sensor.pdf

2014-05-13T03:20:55Z

Elijah.lingbanan:

Web-Available Aircon Control

2014-05-07T01:20:15Z

Elijah.lingbanan:

A component of the [[Sensors and Controls @ DILC]] Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web.

__NOTOC__

==Components==

* 5 pcs. Transistors (2N3904)

[[File:2N3904-NPN-General-Purpose-Amplifier.jpg|150px]]

* 5 pcs. Resistors (22K ohms)

[[File:Resistor final.jpg|150px]]

* PCB

[[File:PCB.jpg|150px]]

* Breadboard

[[File:Breadboard final.jpg |150px]]

* Wires - "Solid and Stranded"

* CD-R KING Universal Remote Control

[[File:Remote Control.jpg|150px]]

* Arduino Micro

[[File:Arduinomicro final.jpg|150px]]

'''Schematic Diagram:'''

[[File:Schematic_Diagram.jpg|900px]]

==Important Steps==
* On the board of the remote, you will see black prints. These prints are very thin so do not try to solder on them because you might destroy the connections. Try to sketch the black prints, then connect the surface with other black prints as seen in the documentation. (The black prints can be connected by the means of green thin lines connecting them. Try to follow the green lines from the black print chosen, and it will lead to other two or three black prints.)

* The needed controls here are ON/OFF, UP, DOWN. If you will notice, this buttons are functioning on the two close black prints. Those black prints are needed to be controlled, so they must be connected to Arduino. There are only five black prints needed, so we will need only five wires to be soldered. We will solder only the green wires attached to the black prints needed (the green wires are insulated. To erase its insulation, use a sharp thing to erase it and be careful). Solder only the bronze part where the insulation is erased. Be careful when soldering the bronze part, for when you pull it too much, the connection of the bronze will be destroyed. The combination of the left part from “Mode to “Set” is 3,9,6,11,10,11,3,11,10,5,6,5. The right part from “Power” to “Temperature Down” is 3,5,6,9,10,9.

* Get the Breadboard and mount up the transistors, resistors, and wires. The transistor is NPN. Search for the pin configuration of the transistor (2N3904). The emitter(E) must be connected to the Ground(Gnd), Base(B) connected to the resistor, Collector(C) connected to the remote control. There are five sets of transistors needed here.

* To connect the breadboard to the Arduino Micro, connect the Ground of the Breadboard to the ground of the Arduino, the resistors toward the PWMs of arduino. Arrange the connection of the wires from the remote to the transistor to the resistor to the Arduino.

* Run the Arduino software and put in the codes below. Save and upload the code. Next is to create the PHP code (see its link below) in Gedit and save it as ".php". In the PHP code, the $comPort = "/dev/ttyACM2" can be seen. Edit this part by changing the comPort that can be seen in the Arduino. Save all the codes and try to run the application.

==Arduino Code:==
[[File:Arduino_Code.pdf]]

==PHP Code:==
[[File:PHP_Code.pdf ‎]]

'''Other Pictures:'''

[[File:PCB setup 1.jpg|250px]]
[[File:Remote PCB 1.jpg|250px]]
[[File:Breadboard setup 1.jpg|250px]]
[[File:Whole_setup_1.jpg|250px]]
[[File:Whole setup 2.jpg|250px]]
[[File:Whole setup 3.jpg|250px]]
[[File:Whole_setup_4.jpg|250px]]
[[File:Remote Schematic PCB.png|200px]]

 

==Development Team==
* '''Elijah L. Lingbanan'''

 

==References==

"http://arduino.cc/en/Main/arduinoBoardMicro"
"http://www.instructables.com/id/Control-an-Arduino-with-PHP/?ALLSTEPS"
"https://www.youtube.com/watch?v=ROBqcQ2YEB8"
"http://www.instructables.com/id/Build-a-transistor-circuit-board-for-controlling-A/?ALLSTEPS"

 

==See Also==
* [[Sensors and Controls @ DILC]]

 

[[Category:DILC Projects]]

Web-Available Aircon Control

2014-05-06T07:13:31Z

Elijah.lingbanan:

A component of the [[Sensors and Controls @ DILC]] Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web.

__NOTOC__

==Components==

* 5 pcs. Transistors (2N3904)

[[File:2N3904-NPN-General-Purpose-Amplifier.jpg|150px]]

* 5 pcs. Resistors (22K ohms)

[[File:Resistor final.jpg|150px]]

* PCB

[[File:PCB.jpg|150px]]

* Breadboard

[[File:Breadboard final.jpg |150px]]

* Wires - "Solid and Stranded"

* CD-R KING Universal Remote Control

[[File:Remote Control.jpg|150px]]

* Arduino Micro

[[File:Arduinomicro final.jpg|150px]]

'''Schematic Diagram:'''

[[File:Schematic_Diagram.jpg|900px]]

==Important Steps==
* On the board of the remote, you will see black prints. These prints are very thin so do not try to solder on them because you might destroy the connections. Try to sketch the black prints, then connect the surface with other black prints as seen in the documentation. (The black prints can be connected by the means of green thin lines connecting them. Try to follow the green lines from the black print chosen, and it will lead to other two or three black prints.)

* The needed controls here are ON/OFF, UP, DOWN. If you will notice, this buttons are functioning on the two close black prints. Those black prints are needed to be controlled, so they must be connected to Arduino. There are only five black prints needed, so we will need only five wires to be soldered. We will solder only the green wires attached to the black prints needed (the green wires are insulated. To erase its insulation, use a sharp thing to erase it and be careful). Solder only the bronze part where the insulation is erased. Be careful when soldering the bronze part, for when you pull it too much, the connection of the bronze will be destroyed. The combination of the left part from “Mode to “Set” is 3,9,6,11,10,11,3,11,10,5,6,5. The right part from “Power” to “Temperature Down” is 3,5,6,9,10,9.

* Get the Breadboard and mount up the transistors, resistors, and wires. The transistor is NPN. Search for the pin configuration of the transistor (2N3904). The emitter(E) must be connected to the Ground(Gnd), Base(B) connected to the resistor, Collector(C) connected to the remote control. There are five sets of transistors needed here.

* To connect the breadboard to the Arduino Micro, connect the Ground of the Breadboard to the ground of the Arduino, the resistors toward the PWMs of arduino. Arrange the connection of the wires from the remote to the transistor to the resistor to the Arduino.

* Do the software part by opening Arduino Software and typing the Codes below.After doing it, save and upload the code. Next is to type the code of PHP(you can see its link below) in gedit and save it as ".php". In the PHP code, the $comPort = "/dev/ttyACM2" can be seen. Edit this part by changing the comPort that can be seen in the Arduino. Lastly save the codes and try to run it in the net. If it works, you have done a great job.

==Arduino Code:==
[[File:Arduino_Code.pdf]]

==PHP Code:==
[[File:PHP_Code.pdf ‎]]

'''Other Pictures:'''

[[File:PCB setup 1.jpg|250px]]
[[File:Remote PCB 1.jpg|250px]]
[[File:Breadboard setup 1.jpg|250px]]
[[File:Whole_setup_1.jpg|250px]]
[[File:Whole setup 2.jpg|250px]]
[[File:Whole setup 3.jpg|250px]]
[[File:Whole_setup_4.jpg|250px]]
[[File:Remote Schematic PCB.png|200px]]

 

==Development Team==
* '''Elijah L. Lingbanan'''

 

==References==

"http://arduino.cc/en/Main/arduinoBoardMicro"
"http://www.instructables.com/id/Control-an-Arduino-with-PHP/?ALLSTEPS"
"https://www.youtube.com/watch?v=ROBqcQ2YEB8"
"http://www.instructables.com/id/Build-a-transistor-circuit-board-for-controlling-A/?ALLSTEPS"

 

==See Also==
* [[Sensors and Controls @ DILC]]

 

[[Category:DILC Projects]]

File:Schematic Diagram.jpg

2014-05-06T06:52:43Z

Elijah.lingbanan: Elijah.lingbanan uploaded a new version of "File:Schematic Diagram.jpg"

Web-Available Aircon Control

2014-05-06T06:47:57Z

Elijah.lingbanan:

A component of the [[Sensors and Controls @ DILC]] Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web.

__NOTOC__

==Components==

* 5 pcs. Transistors (2N3904)

[[File:2N3904-NPN-General-Purpose-Amplifier.jpg|150px]]

* 5 pcs. Resistors (22K ohms)

[[File:Resistor final.jpg|150px]]

* PCB

[[File:PCB.jpg|150px]]

* Breadboard

[[File:Breadboard final.jpg |150px]]

* Wires - "Solid and Stranded"

* CD-R KING Universal Remote Control

[[File:Remote Control.jpg|150px]]

* Arduino Micro

[[File:Arduinomicro final.jpg|150px]]

'''Schematic Diagram:'''

[[File:Schematic_Diagram.jpg|900px]]

==Important Steps==
* On the board of the remote, you will see black prints. These prints are very thin so do not try to solder on them because you might destroy the connections. Try to sketch the black prints, then connect the surface with other black prints as seen in the documentation. (The black prints can be connected by the means of green thin lines connecting them. Try to follow the green lines from the black print chosen, and it will lead to other two or three black prints.)

* The needed controls here are ON/OFF, UP, DOWN. If you will notice, this buttons are functioning on the two close black prints. Those black prints are needed to be controlled, so they must be connected to Arduino. There are only five black prints needed, so we will need only five wires to be soldered. We will solder only the green wires attached to the black prints needed (the green wires are insulated. To erase its insulation, use a sharp thing to erase it and be careful). Solder only the bronze part where the insulation is erased. Be careful when soldering the bronze part, for when you pull it too much, the connection of the bronze will be destroyed. The combination of the left part from “Mode to “Set” is 3,9,6,11,10,11,3,11,10,5,6,5. The right part from “Power” to “Temperature Down” is 3,5,6,9,10,9.

* Get the Breadboard and mount up the transistors, resistors, and wires. The transistor is NPN. Search for the pin configuration of the transistor (2N3904). The emitter(E) must be connected to the Ground(Gnd), Base(B) connected to the resistor, Collector(C) connected to the remote control. There are five sets of transistors needed here.

* To connect the breadboard to the Arduino Micro, connect the Ground of the Breadboard to the ground of the Arduino, the resistors toward the PWMs of arduino. Arrange the connection of the wires from the remote to the transistor to the resistor to the Arduino.

==Arduino Code:==
[[File:Arduino_Code.pdf]]

==PHP Code:==
[[File:PHP_Code.pdf ‎]]

'''Other Pictures:'''

[[File:PCB setup 1.jpg|250px]]
[[File:Remote PCB 1.jpg|250px]]
[[File:Breadboard setup 1.jpg|250px]]
[[File:Whole_setup_1.jpg|250px]]
[[File:Whole setup 2.jpg|250px]]
[[File:Whole setup 3.jpg|250px]]
[[File:Whole_setup_4.jpg|250px]]
[[File:Remote Schematic PCB.png|200px]]

 

==Development Team==
* '''Elijah L. Lingbanan'''

 

==References==

"http://arduino.cc/en/Main/arduinoBoardMicro"
"http://www.instructables.com/id/Control-an-Arduino-with-PHP/?ALLSTEPS"
"https://www.youtube.com/watch?v=ROBqcQ2YEB8"
"http://www.instructables.com/id/Build-a-transistor-circuit-board-for-controlling-A/?ALLSTEPS"

 

==See Also==
* [[Sensors and Controls @ DILC]]

 

[[Category:DILC Projects]]

Web-Available Aircon Control

2014-05-06T06:27:08Z

Elijah.lingbanan:

A component of the [[Sensors and Controls @ DILC]] Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web.

__NOTOC__

==Components==

* 5 pcs. Transistors (2N3904)

[[File:2N3904-NPN-General-Purpose-Amplifier.jpg|150px]]

* 5 pcs. Resistors (22K ohms)

[[File:Resistor final.jpg|150px]]

* PCB

[[File:PCB.jpg|150px]]

* Breadboard

[[File:Breadboard final.jpg |150px]]

* Wires - "Solid and Stranded"

* CD-R KING Universal Remote Control

[[File:Remote Control.jpg|150px]]

* Arduino Micro

[[File:Arduinomicro final.jpg|150px]]

'''Schematic Diagram:'''

[[File:Schematic_Diagram.jpg|900px]]

==Important Steps==
* On the board of the remote, you will see black prints. These prints are very thin so do not try to solder on them because you might destroy the connections. Try to sketch the black prints, then connect the surface with other black prints as seen in the documentation. (The black prints can be connected by the means of green thin lines connecting them. Try to follow the green lines from the black print chosen, and it will lead to other two or three black prints.)

* The needed controls here are ON/OFF, UP, DOWN. If you will notice, this buttons are functioning on the two close black prints. Those black prints are needed to be controlled, so they must be connected to Arduino. There are only five black prints needed, so we will need only five wires to be soldered. We will solder only the green wires attached to the black prints needed (the green wires are insulated. To erase its insulation, use a sharp thing to erase it and be careful). Solder only the bronze part where the insulation is erased. Be careful when soldering the bronze part, for when you pull it too much, the connection of the bronze will be destroyed. The combination of the left part from “Mode to “Set” is 3,9,6,11,10,11,3,11,10,5,6,5. The right part from “Power” to “Temperature Down” is 3,5,6,9,10,9.

* Get the Breadboard and mount up the transistors resistors and wires. The transistor is NPN. Search for the pin configuration of the transistor (2N3904). The emitter(E) must be connected to the Ground(Gnd), Base(B) connected to the resistor, Collector(C) connected to the remote control. There are five sets of transistors needed here.

* To connect the breadboard to the Arduino Micro, connect the Ground of the Breadboard to the ground of the Arduino, the resistors toward the PWMs of arduino. Arrange the connection of the wires from the remote to the transistor to the resistor to the Arduino.

==Arduino Code:==
[[File:Arduino_Code.pdf]]

==PHP Code:==
[[File:PHP_Code.pdf ‎]]

'''Other Pictures:'''

[[File:PCB setup 1.jpg|250px]]
[[File:Remote PCB 1.jpg|250px]]
[[File:Breadboard setup 1.jpg|250px]]
[[File:Whole_setup_1.jpg|250px]]
[[File:Whole setup 2.jpg|250px]]
[[File:Whole setup 3.jpg|250px]]
[[File:Whole_setup_4.jpg|250px]]
[[File:Remote Schematic PCB.png|200px]]

 

==Development Team==
* '''Elijah L. Lingbanan'''

 

==References==

"http://arduino.cc/en/Main/arduinoBoardMicro"
"http://www.instructables.com/id/Control-an-Arduino-with-PHP/?ALLSTEPS"
"https://www.youtube.com/watch?v=ROBqcQ2YEB8"
"http://www.instructables.com/id/Build-a-transistor-circuit-board-for-controlling-A/?ALLSTEPS"

 

==See Also==
* [[Sensors and Controls @ DILC]]

 

[[Category:DILC Projects]]

File:Schematic Diagram.jpg

2014-05-06T06:22:12Z

Elijah.lingbanan:

Web-Available Aircon Control

2014-05-06T02:38:56Z

Elijah.lingbanan:

A component of the [[Sensors and Controls @ DILC]] Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web.

__NOTOC__

==Components==

* 5 pcs. Transistors (2N3904)

[[File:2N3904-NPN-General-Purpose-Amplifier.jpg|150px]]

* 5 pcs. Resistors (22K ohms)

[[File:Resistor final.jpg|150px]]

* PCB

[[File:PCB.jpg|150px]]

* Breadboard

[[File:Breadboard final.jpg |150px]]

* Wires - "Solid and Stranded"

* CD-R KING Universal Remote Control

[[File:Remote Control.jpg|150px]]

* Arduino Micro

[[File:Arduinomicro final.jpg|150px]]

'''Schematic Diagram:'''

[[File:Schematic Diagram.png]]

==Important Steps==
* On the board of the remote, you will see black prints. These prints are very thin so do not try to solder on them because you might destroy the connections. Try to sketch the black prints, then connect the surface with other black prints as seen in the documentation. (The black prints can be connected by the means of green thin lines connecting them. Try to follow the green lines from the black print chosen, and it will lead to other two or three black prints.)

* The needed controls here are ON/OFF, UP, DOWN. If you will notice, this buttons are functioning on the two close black prints. Those black prints are needed to be controlled, so they must be connected to Arduino. There are only five black prints needed, so we will need only five wires to be soldered. We will solder only the green wires attached to the black prints needed (the green wires are insulated. To erase its insulation, use a sharp thing to erase it and be careful). Solder only the bronze part where the insulation is erased. Be careful when soldering the bronze part, for when you pull it too much, the connection of the bronze will be destroyed. The combination of the left part from “Mode to “Set” is 3,9,6,11,10,11,3,11,10,5,6,5. The right part from “Power” to “Temperature Down” is 3,5,6,9,10,9.

* Get the Breadboard and mount up the transistors resistors and wires. The transistor is NPN. Search for the pin configuration of the transistor (2N3904). The emitter(E) must be connected to the Ground(Gnd), Base(B) connected to the resistor, Collector(C) connected to the remote control. There are five sets of transistors needed here.

* To connect the breadboard to the Arduino Micro, connect the Ground of the Breadboard to the ground of the Arduino, the resistors toward the PWMs of arduino. Arrange the connection of the wires from the remote to the transistor to the resistor to the Arduino.

==Arduino Code:==
[[File:Arduino_Code.pdf]]

==PHP Code:==
[[File:PHP_Code.pdf ‎]]

'''Other Pictures:'''

[[File:PCB setup 1.jpg|250px]]
[[File:Remote PCB 1.jpg|250px]]
[[File:Breadboard setup 1.jpg|250px]]
[[File:Whole_setup_1.jpg|250px]]
[[File:Whole setup 2.jpg|250px]]
[[File:Whole setup 3.jpg|250px]]
[[File:Whole_setup_4.jpg|250px]]
[[File:Remote Schematic PCB.png|200px]]

 

==Development Team==
* '''Elijah L. Lingbanan'''

 

==References==

"http://arduino.cc/en/Main/arduinoBoardMicro"
"http://www.instructables.com/id/Control-an-Arduino-with-PHP/?ALLSTEPS"
"https://www.youtube.com/watch?v=ROBqcQ2YEB8"
"http://www.instructables.com/id/Build-a-transistor-circuit-board-for-controlling-A/?ALLSTEPS"

 

==See Also==
* [[Sensors and Controls @ DILC]]

 

[[Category:DILC Projects]]

File:PHP Code.pdf

2014-05-06T02:19:50Z

Elijah.lingbanan:

File:Arduino Code.pdf

2014-05-06T02:14:57Z

Elijah.lingbanan:

Sensors and Controls @ DILC

2014-05-06T01:40:54Z

Elijah.lingbanan:

{| align="right"
| __TOC__
|}
=Description=
a cost-effective, robust, integrated multi-trigger security and alert system using off-the-shelf or recycled hardware and sensors and open-source software technologies for messaging, video streaming and recording, machine vision, video analytics, thermal and power monitoring and control. It provides multi-channel feedback (Twitter, Email, SMS, etc).
 

=Trigger Events=
* heat (aircon not working, fire)
* smoke (smoke detector linked to online alarm system)
* motion (person entering/leaving building or room)
* sound (fans, batteries failing, alarm of non-networked motion or thermal sensors)
* power outage
 
[[Image:Big_Plan-Sensors.jpg|thumb|350px|alpha version of the "big plan" for smoke and heat sensors]]

=Output=
* SMS
* email
* video recording
* log recording
* alarm (sound, light)
* Tweet
* phone dialling
 

=Specs=
IP camera, POE (Power Over Ethernet), direct-to-NAS recording (AFP, SAMBA, or NFS), inputs for PIR sensors, Infra Red light for night vision, mechanical IR-Cut Filter Switch (basic surveillance functions incorporated into the camera; camera sends stream when preset event occurs; system send SMS/email), NAS (www.nas4free.org - ZSF file system 4 TB RAID Z2)

 

----
==Smoke and Temp Module==
[[Image:Proximity-sensors-controls.jpg|350px|right]]
This module monitors room temperature independent of on-board temperature sensors (also monitored) in our servers. It is especially useful in keeping optimal temperature for DILC's data center. Cooling the room too much is a waste of energy. Temperature readings are occasionally verified using 3rd-party thermal instruments.

 
Controller:
:: [http://www.e-gizmo.com/KIT/gizDuino%20X.html Gizduino X] (see [http://www.scribd.com/doc/92178907/Arduino-Manual manual])
 
Sensors:
[[File:Arduino_micro.jpeg|350px|thumb|right|Arduino micro for aircon control]]
:: temp: [http://www.engineersgarage.com/sites/default/files/LM35.PDF LM 35]. See [http://learn.adafruit.com/tmp36-temperature-sensor/using-a-temp-sensor this]
:: [http://www.e-gizmo.com/KIT/smokesensor.htm smoke]
 
[[File:Monitoring_screen-beta.png|350px|thumb|center|temperature monitoring screen]]
Shields:
:: [http://www.e-gizmo.com/KIT/ethernet%20shield.html ethernet]. See also [http://arduino.cc/en/Main/ArduinoEthernetShield Arduino Ethernet Shield]
 

 

===[[Web-Available Aircon Control]]===

[[Web-Available_Aircon_Control|More info]]

 

==Motion Detection and Video Monitoring Module==
[[File:Logbank_cams.png]] 
* combination of mid-, low-end; recycled, old, new cams
* redundant off-site recordings (continuous and motion-activated events) and picture snapshots
[[File:camera.jpg|200px|thumb|left|old camera parts]][[File:CameraZOOM-20130917123206272.jpg|thumb|200px|center|Interns doing camera configuration]] 
* motion sensors compensate for "blind spots" 
[[File:Sample_night_vision_shot.png|200px|thumb|left|sample night vision shot]]
 

 

 

==='''[[Proximity Sensor via Ultrasonic Sonar Module]]'''===
[[Proximity_Sensor_via_Ultrasonic_Sonar_Module|More Info]]

 

----

==Power Monitoring Module==
* uses embedded sensors to monitor temperature and power outage and recovery

[[File:Power_dashboard.png|250px|thumb|left|power summary]][[File:Temp_sensor.png|250px|thumb|center|UPS temp reading for a day]]

 

* redundant power-failure alert system
[[File:Power_failure_notice.png|250px|thumb|left|UPS Notice from Site 1 (Mezza North)]]
[[File:UPS_notice_2.png|350|300px|thumb|center|UPS Notice from Site 2]]
 
 
 

----

==NAS Module==
* [[Network_Attached_Storage|Network-Attached Storage]]
 

----

==Messaging Module==
[[File:Part_of_a_dongle_dashboard.png|300px|thumb|right|part of a GSM Dongles dashboard @DILC]]
* USB Dongle. See [http://wammu.eu/phones Gammu compatible devices]
* [http://wammu.eu/ Gammu]
* Php Mailer

 

 

----

==Webapps and Dashboard Module==
:: Framework Choices: [http://twistedmatrix.com/trac/ Twisted], [http://nodejs.org Nodejs] or [http://en.wikipedia.org/wiki/Reactor_pattern alternatives]
* to incorporate streams of data from sensors embedded in equipment

 

----
=Developers=
 
'''Temperature Sensor Dashboard'''
* Karen Calado
* Harell Juanico

 

'''Temp/Smoke Sensor'''
* Rowel Cababat
* Joven Baluyot
* Carlito Graza
* Erickson Sombillo

 

'''Video Monitoring'''
* Bonifacio Badilla
* Zandro Paul Abadiac

 

'''AC Remote Sensor'''
* Elijah Lingbanan
* Emannuel Abalain

 

'''Proximity Sensor'''
* Chris Manuel Garcia
 
 

----

=Readings=
'''Power Monitoring'''
* [http://openenergymonitor.org/emon/ OpenEnergyMonitor]
* [http://www.picobay.com/projects/2009/01/real-time-web-based-power-charting.html "Real-time Web Based Power Charting"]
 
'''Sensors'''
* [http://blog.spark.io/2014/01/17/open-source-thermostat/ Building an open source Nest]
 
'''Video'''
* [http://www.roborealm.com/links/vision_software.php Vision Software]
* [http://www.cctvlenscalculator.com/ cctv lens calculator] - not just any cam please!
* [http://avtech.com/Products/Monitor_-_Sensors/MUPS.htm Avtech Products] - benchmark projects with prices here.
* [http://www.ispyconnect.com iSpy]
* [http://code.google.com/p/openvss/ Open Platform Video Surveillance System]
* [http://www.zoneminder.com/ ZoneMinder]
* [http://opencv.org OpenCV]
* [http://scene.sourceforge.net/ Scene]
* [http://wxcam.sourceforge.net/ wxCam]
* [http://www.lavrsen.dk/foswiki/bin/view/Motion/WebHome Motion]. See also [http://ubuntuforums.org/showthread.php?t=1897786 this discussion]
 
'''SMS'''
* [http://wammu.eu/ Wammu]

 
----

=See Also=
* [[Biometric and Security Console]]
* [[logBank]]
* [http://dilc.info/intern dilc.info/intern]
* [[D I L C Media Lab]]

 

[[Category:DILC Matters]][[Category:DILC Projects]]

Sensors and Controls @ DILC

2014-05-06T01:38:59Z

Elijah.lingbanan: /* Web-Available Aircon Control */

{| align="right"
| __TOC__
|}
=Description=
a cost-effective, robust, integrated multi-trigger security and alert system using off-the-shelf or recycled hardware and sensors and open-source software technologies for messaging, video streaming and recording, machine vision, video analytics, thermal and power monitoring and control. It provides multi-channel feedback (Twitter, Email, SMS, etc).
 

=Trigger Events=
* heat (aircon not working, fire)
* smoke (smoke detector linked to online alarm system)
* motion (person entering/leaving building or room)
* sound (fans, batteries failing, alarm of non-networked motion or thermal sensors)
* power outage
 
[[Image:Big_Plan-Sensors.jpg|thumb|350px|alpha version of the "big plan" for smoke and heat sensors]]

=Output=
* SMS
* email
* video recording
* log recording
* alarm (sound, light)
* Tweet
* phone dialling
 

=Specs=
IP camera, POE (Power Over Ethernet), direct-to-NAS recording (AFP, SAMBA, or NFS), inputs for PIR sensors, Infra Red light for night vision, mechanical IR-Cut Filter Switch (basic surveillance functions incorporated into the camera; camera sends stream when preset event occurs; system send SMS/email), NAS (www.nas4free.org - ZSF file system 4 TB RAID Z2)

 

----
==Smoke and Temp Module==
[[Image:Proximity-sensors-controls.jpg|350px|right]]
This module monitors room temperature independent of on-board temperature sensors (also monitored) in our servers. It is especially useful in keeping optimal temperature for DILC's data center. Cooling the room too much is a waste of energy. Temperature readings are occasionally verified using 3rd-party thermal instruments.

 
Controller:
:: [http://www.e-gizmo.com/KIT/gizDuino%20X.html Gizduino X] (see [http://www.scribd.com/doc/92178907/Arduino-Manual manual])
 
Sensors:
[[File:Arduino_micro.jpeg|350px|thumb|right|Arduino micro for aircon control]]
:: temp: [http://www.engineersgarage.com/sites/default/files/LM35.PDF LM 35]. See [http://learn.adafruit.com/tmp36-temperature-sensor/using-a-temp-sensor this]
:: [http://www.e-gizmo.com/KIT/smokesensor.htm smoke]
 
[[File:Monitoring_screen-beta.png|350px|thumb|center|temperature monitoring screen]]
Shields:
:: [http://www.e-gizmo.com/KIT/ethernet%20shield.html ethernet]. See also [http://arduino.cc/en/Main/ArduinoEthernetShield Arduino Ethernet Shield]
 

 

'''===[[Web-Available Aircon Control]]===
'''

[[Web-Available_Aircon_Control|More info]]

 

==Motion Detection and Video Monitoring Module==
[[File:Logbank_cams.png]] 
* combination of mid-, low-end; recycled, old, new cams
* redundant off-site recordings (continuous and motion-activated events) and picture snapshots
[[File:camera.jpg|200px|thumb|left|old camera parts]][[File:CameraZOOM-20130917123206272.jpg|thumb|200px|center|Interns doing camera configuration]] 
* motion sensors compensate for "blind spots" 
[[File:Sample_night_vision_shot.png|200px|thumb|left|sample night vision shot]]
 

 

 

==='''[[Proximity Sensor via Ultrasonic Sonar Module]]'''===
[[Proximity_Sensor_via_Ultrasonic_Sonar_Module|More Info]]

 

----

==Power Monitoring Module==
* uses embedded sensors to monitor temperature and power outage and recovery

[[File:Power_dashboard.png|250px|thumb|left|power summary]][[File:Temp_sensor.png|250px|thumb|center|UPS temp reading for a day]]

 

* redundant power-failure alert system
[[File:Power_failure_notice.png|250px|thumb|left|UPS Notice from Site 1 (Mezza North)]]
[[File:UPS_notice_2.png|350|300px|thumb|center|UPS Notice from Site 2]]
 
 
 

----

==NAS Module==
* [[Network_Attached_Storage|Network-Attached Storage]]
 

----

==Messaging Module==
[[File:Part_of_a_dongle_dashboard.png|300px|thumb|right|part of a GSM Dongles dashboard @DILC]]
* USB Dongle. See [http://wammu.eu/phones Gammu compatible devices]
* [http://wammu.eu/ Gammu]
* Php Mailer

 

 

----

==Webapps and Dashboard Module==
:: Framework Choices: [http://twistedmatrix.com/trac/ Twisted], [http://nodejs.org Nodejs] or [http://en.wikipedia.org/wiki/Reactor_pattern alternatives]
* to incorporate streams of data from sensors embedded in equipment

 

----
=Developers=
 
'''Temperature Sensor Dashboard'''
* Karen Calado
* Harell Juanico

 

'''Temp/Smoke Sensor'''
* Rowel Cababat
* Joven Baluyot
* Carlito Graza
* Erickson Sombillo

 

'''Video Monitoring'''
* Bonifacio Badilla
* Zandro Paul Abadiac

 

'''AC Remote Sensor'''
* Elijah Lingbanan
* Emannuel Abalain

 

'''Proximity Sensor'''
* Chris Manuel Garcia
 
 

----

=Readings=
'''Power Monitoring'''
* [http://openenergymonitor.org/emon/ OpenEnergyMonitor]
* [http://www.picobay.com/projects/2009/01/real-time-web-based-power-charting.html "Real-time Web Based Power Charting"]
 
'''Sensors'''
* [http://blog.spark.io/2014/01/17/open-source-thermostat/ Building an open source Nest]
 
'''Video'''
* [http://www.roborealm.com/links/vision_software.php Vision Software]
* [http://www.cctvlenscalculator.com/ cctv lens calculator] - not just any cam please!
* [http://avtech.com/Products/Monitor_-_Sensors/MUPS.htm Avtech Products] - benchmark projects with prices here.
* [http://www.ispyconnect.com iSpy]
* [http://code.google.com/p/openvss/ Open Platform Video Surveillance System]
* [http://www.zoneminder.com/ ZoneMinder]
* [http://opencv.org OpenCV]
* [http://scene.sourceforge.net/ Scene]
* [http://wxcam.sourceforge.net/ wxCam]
* [http://www.lavrsen.dk/foswiki/bin/view/Motion/WebHome Motion]. See also [http://ubuntuforums.org/showthread.php?t=1897786 this discussion]
 
'''SMS'''
* [http://wammu.eu/ Wammu]

 
----

=See Also=
* [[Biometric and Security Console]]
* [[logBank]]
* [http://dilc.info/intern dilc.info/intern]
* [[D I L C Media Lab]]

 

[[Category:DILC Matters]][[Category:DILC Projects]]

Sensors and Controls @ DILC

2014-05-06T01:38:09Z

Elijah.lingbanan: /* Web-Available Aircon Control */

{| align="right"
| __TOC__
|}
=Description=
a cost-effective, robust, integrated multi-trigger security and alert system using off-the-shelf or recycled hardware and sensors and open-source software technologies for messaging, video streaming and recording, machine vision, video analytics, thermal and power monitoring and control. It provides multi-channel feedback (Twitter, Email, SMS, etc).
 

=Trigger Events=
* heat (aircon not working, fire)
* smoke (smoke detector linked to online alarm system)
* motion (person entering/leaving building or room)
* sound (fans, batteries failing, alarm of non-networked motion or thermal sensors)
* power outage
 
[[Image:Big_Plan-Sensors.jpg|thumb|350px|alpha version of the "big plan" for smoke and heat sensors]]

=Output=
* SMS
* email
* video recording
* log recording
* alarm (sound, light)
* Tweet
* phone dialling
 

=Specs=
IP camera, POE (Power Over Ethernet), direct-to-NAS recording (AFP, SAMBA, or NFS), inputs for PIR sensors, Infra Red light for night vision, mechanical IR-Cut Filter Switch (basic surveillance functions incorporated into the camera; camera sends stream when preset event occurs; system send SMS/email), NAS (www.nas4free.org - ZSF file system 4 TB RAID Z2)

 

----
==Smoke and Temp Module==
[[Image:Proximity-sensors-controls.jpg|350px|right]]
This module monitors room temperature independent of on-board temperature sensors (also monitored) in our servers. It is especially useful in keeping optimal temperature for DILC's data center. Cooling the room too much is a waste of energy. Temperature readings are occasionally verified using 3rd-party thermal instruments.

 
Controller:
:: [http://www.e-gizmo.com/KIT/gizDuino%20X.html Gizduino X] (see [http://www.scribd.com/doc/92178907/Arduino-Manual manual])
 
Sensors:
[[File:Arduino_micro.jpeg|350px|thumb|right|Arduino micro for aircon control]]
:: temp: [http://www.engineersgarage.com/sites/default/files/LM35.PDF LM 35]. See [http://learn.adafruit.com/tmp36-temperature-sensor/using-a-temp-sensor this]
:: [http://www.e-gizmo.com/KIT/smokesensor.htm smoke]
 
[[File:Monitoring_screen-beta.png|350px|thumb|center|temperature monitoring screen]]
Shields:
:: [http://www.e-gizmo.com/KIT/ethernet%20shield.html ethernet]. See also [http://arduino.cc/en/Main/ArduinoEthernetShield Arduino Ethernet Shield]
 

 

'''===[[Web-Available Aircon Control]]===
'''

[[Web-Available_Aircon_Control|More info]]

 

==Motion Detection and Video Monitoring Module==
[[File:Logbank_cams.png]] 
* combination of mid-, low-end; recycled, old, new cams
* redundant off-site recordings (continuous and motion-activated events) and picture snapshots
[[File:camera.jpg|200px|thumb|left|old camera parts]][[File:CameraZOOM-20130917123206272.jpg|thumb|200px|center|Interns doing camera configuration]] 
* motion sensors compensate for "blind spots" 
[[File:Sample_night_vision_shot.png|200px|thumb|left|sample night vision shot]]
 

 

 

==='''[[Proximity Sensor via Ultrasonic Sonar Module]]'''===
[[Proximity_Sensor_via_Ultrasonic_Sonar_Module|More Info]]

 

----

==Power Monitoring Module==
* uses embedded sensors to monitor temperature and power outage and recovery

[[File:Power_dashboard.png|250px|thumb|left|power summary]][[File:Temp_sensor.png|250px|thumb|center|UPS temp reading for a day]]

 

* redundant power-failure alert system
[[File:Power_failure_notice.png|250px|thumb|left|UPS Notice from Site 1 (Mezza North)]]
[[File:UPS_notice_2.png|350|300px|thumb|center|UPS Notice from Site 2]]
 
 
 

----

==NAS Module==
* [[Network_Attached_Storage|Network-Attached Storage]]
 

----

==Messaging Module==
[[File:Part_of_a_dongle_dashboard.png|300px|thumb|right|part of a GSM Dongles dashboard @DILC]]
* USB Dongle. See [http://wammu.eu/phones Gammu compatible devices]
* [http://wammu.eu/ Gammu]
* Php Mailer

 

 

----

==Webapps and Dashboard Module==
:: Framework Choices: [http://twistedmatrix.com/trac/ Twisted], [http://nodejs.org Nodejs] or [http://en.wikipedia.org/wiki/Reactor_pattern alternatives]
* to incorporate streams of data from sensors embedded in equipment

 

----
=Developers=
 
'''Temperature Sensor Dashboard'''
* Karen Calado
* Harell Juanico

 

'''Temp/Smoke Sensor'''
* Rowel Cababat
* Joven Baluyot
* Carlito Graza
* Erickson Sombillo

 

'''Video Monitoring'''
* Bonifacio Badilla
* Zandro Paul Abadiac

 

'''AC Remote Sensor'''
* Elijah Lingbanan
* Emannuel Abalain

 

'''Proximity Sensor'''
* Chris Manuel Garcia
 
 

----

=Readings=
'''Power Monitoring'''
* [http://openenergymonitor.org/emon/ OpenEnergyMonitor]
* [http://www.picobay.com/projects/2009/01/real-time-web-based-power-charting.html "Real-time Web Based Power Charting"]
 
'''Sensors'''
* [http://blog.spark.io/2014/01/17/open-source-thermostat/ Building an open source Nest]
 
'''Video'''
* [http://www.roborealm.com/links/vision_software.php Vision Software]
* [http://www.cctvlenscalculator.com/ cctv lens calculator] - not just any cam please!
* [http://avtech.com/Products/Monitor_-_Sensors/MUPS.htm Avtech Products] - benchmark projects with prices here.
* [http://www.ispyconnect.com iSpy]
* [http://code.google.com/p/openvss/ Open Platform Video Surveillance System]
* [http://www.zoneminder.com/ ZoneMinder]
* [http://opencv.org OpenCV]
* [http://scene.sourceforge.net/ Scene]
* [http://wxcam.sourceforge.net/ wxCam]
* [http://www.lavrsen.dk/foswiki/bin/view/Motion/WebHome Motion]. See also [http://ubuntuforums.org/showthread.php?t=1897786 this discussion]
 
'''SMS'''
* [http://wammu.eu/ Wammu]

 
----

=See Also=
* [[Biometric and Security Console]]
* [[logBank]]
* [http://dilc.info/intern dilc.info/intern]
* [[D I L C Media Lab]]

 

[[Category:DILC Matters]][[Category:DILC Projects]]

Sensors and Controls @ DILC

2014-05-06T01:35:54Z

Elijah.lingbanan: /* Web-Available Aircon Control */

{| align="right"
| __TOC__
|}
=Description=
a cost-effective, robust, integrated multi-trigger security and alert system using off-the-shelf or recycled hardware and sensors and open-source software technologies for messaging, video streaming and recording, machine vision, video analytics, thermal and power monitoring and control. It provides multi-channel feedback (Twitter, Email, SMS, etc).
 

=Trigger Events=
* heat (aircon not working, fire)
* smoke (smoke detector linked to online alarm system)
* motion (person entering/leaving building or room)
* sound (fans, batteries failing, alarm of non-networked motion or thermal sensors)
* power outage
 
[[Image:Big_Plan-Sensors.jpg|thumb|350px|alpha version of the "big plan" for smoke and heat sensors]]

=Output=
* SMS
* email
* video recording
* log recording
* alarm (sound, light)
* Tweet
* phone dialling
 

=Specs=
IP camera, POE (Power Over Ethernet), direct-to-NAS recording (AFP, SAMBA, or NFS), inputs for PIR sensors, Infra Red light for night vision, mechanical IR-Cut Filter Switch (basic surveillance functions incorporated into the camera; camera sends stream when preset event occurs; system send SMS/email), NAS (www.nas4free.org - ZSF file system 4 TB RAID Z2)

 

----
==Smoke and Temp Module==
[[Image:Proximity-sensors-controls.jpg|350px|right]]
This module monitors room temperature independent of on-board temperature sensors (also monitored) in our servers. It is especially useful in keeping optimal temperature for DILC's data center. Cooling the room too much is a waste of energy. Temperature readings are occasionally verified using 3rd-party thermal instruments.

 
Controller:
:: [http://www.e-gizmo.com/KIT/gizDuino%20X.html Gizduino X] (see [http://www.scribd.com/doc/92178907/Arduino-Manual manual])
 
Sensors:
[[File:Arduino_micro.jpeg|350px|thumb|right|Arduino micro for aircon control]]
:: temp: [http://www.engineersgarage.com/sites/default/files/LM35.PDF LM 35]. See [http://learn.adafruit.com/tmp36-temperature-sensor/using-a-temp-sensor this]
:: [http://www.e-gizmo.com/KIT/smokesensor.htm smoke]
 
[[File:Monitoring_screen-beta.png|350px|thumb|center|temperature monitoring screen]]
Shields:
:: [http://www.e-gizmo.com/KIT/ethernet%20shield.html ethernet]. See also [http://arduino.cc/en/Main/ArduinoEthernetShield Arduino Ethernet Shield]
 

 

'''===[[Web-Available Aircon Control]]===
'''

[[Web-Available_Aircon_Control|More info]]

 

==Motion Detection and Video Monitoring Module==
[[File:Logbank_cams.png]] 
* combination of mid-, low-end; recycled, old, new cams
* redundant off-site recordings (continuous and motion-activated events) and picture snapshots
[[File:camera.jpg|200px|thumb|left|old camera parts]][[File:CameraZOOM-20130917123206272.jpg|thumb|200px|center|Interns doing camera configuration]] 
* motion sensors compensate for "blind spots" 
[[File:Sample_night_vision_shot.png|200px|thumb|left|sample night vision shot]]
 

 

 

==='''[[Proximity Sensor via Ultrasonic Sonar Module]]'''===
[[Proximity_Sensor_via_Ultrasonic_Sonar_Module|More Info]]

 

----

==Power Monitoring Module==
* uses embedded sensors to monitor temperature and power outage and recovery

[[File:Power_dashboard.png|250px|thumb|left|power summary]][[File:Temp_sensor.png|250px|thumb|center|UPS temp reading for a day]]

 

* redundant power-failure alert system
[[File:Power_failure_notice.png|250px|thumb|left|UPS Notice from Site 1 (Mezza North)]]
[[File:UPS_notice_2.png|350|300px|thumb|center|UPS Notice from Site 2]]
 
 
 

----

==NAS Module==
* [[Network_Attached_Storage|Network-Attached Storage]]
 

----

==Messaging Module==
[[File:Part_of_a_dongle_dashboard.png|300px|thumb|right|part of a GSM Dongles dashboard @DILC]]
* USB Dongle. See [http://wammu.eu/phones Gammu compatible devices]
* [http://wammu.eu/ Gammu]
* Php Mailer

 

 

----

==Webapps and Dashboard Module==
:: Framework Choices: [http://twistedmatrix.com/trac/ Twisted], [http://nodejs.org Nodejs] or [http://en.wikipedia.org/wiki/Reactor_pattern alternatives]
* to incorporate streams of data from sensors embedded in equipment

 

----
=Developers=
 
'''Temperature Sensor Dashboard'''
* Karen Calado
* Harell Juanico

 

'''Temp/Smoke Sensor'''
* Rowel Cababat
* Joven Baluyot
* Carlito Graza
* Erickson Sombillo

 

'''Video Monitoring'''
* Bonifacio Badilla
* Zandro Paul Abadiac

 

'''AC Remote Sensor'''
* Elijah Lingbanan
* Emannuel Abalain

 

'''Proximity Sensor'''
* Chris Manuel Garcia
 
 

----

=Readings=
'''Power Monitoring'''
* [http://openenergymonitor.org/emon/ OpenEnergyMonitor]
* [http://www.picobay.com/projects/2009/01/real-time-web-based-power-charting.html "Real-time Web Based Power Charting"]
 
'''Sensors'''
* [http://blog.spark.io/2014/01/17/open-source-thermostat/ Building an open source Nest]
 
'''Video'''
* [http://www.roborealm.com/links/vision_software.php Vision Software]
* [http://www.cctvlenscalculator.com/ cctv lens calculator] - not just any cam please!
* [http://avtech.com/Products/Monitor_-_Sensors/MUPS.htm Avtech Products] - benchmark projects with prices here.
* [http://www.ispyconnect.com iSpy]
* [http://code.google.com/p/openvss/ Open Platform Video Surveillance System]
* [http://www.zoneminder.com/ ZoneMinder]
* [http://opencv.org OpenCV]
* [http://scene.sourceforge.net/ Scene]
* [http://wxcam.sourceforge.net/ wxCam]
* [http://www.lavrsen.dk/foswiki/bin/view/Motion/WebHome Motion]. See also [http://ubuntuforums.org/showthread.php?t=1897786 this discussion]
 
'''SMS'''
* [http://wammu.eu/ Wammu]

 
----

=See Also=
* [[Biometric and Security Console]]
* [[logBank]]
* [http://dilc.info/intern dilc.info/intern]
* [[D I L C Media Lab]]

 

[[Category:DILC Matters]][[Category:DILC Projects]]

User:Elijah.lingbanan

2014-04-22T10:00:06Z

Elijah.lingbanan: Created page with "A component of the Sensors and Controls @ DILC Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web. __NOTOC__ ==Components== ..."

A component of the [[Sensors and Controls @ DILC]] Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web.

__NOTOC__

==Components==

* 5 pcs. Transistors (2N3904)

[[File:2N3904-NPN-General-Purpose-Amplifier.jpg|150px]]

* 5 pcs. Resistors (22K ohms)

[[File:Resistor final.jpg|150px]]

* PCB

[[File:PCB.jpg|150px]]

* Breadboard

[[File:Breadboard final.jpg |150px]]

* Wires - "Solid and Stranded"

* CD-R KING Universal Remote Control

[[File:Remote Control.jpg|150px]]

* Arduino Micro

[[File:Arduinomicro final.jpg|150px]]

'''Schematic Diagram:'''

[[File:Schematic Diagram.png]]

==Important Steps==
* On the board of the remote, you will see black prints. These prints are very thin so do not try to solder on them because you might destroy the connections. Try to sketch the black prints, then connect the surface with other black prints as seen in the documentation. (The black prints can be connected by the means of green thin lines connecting them. Try to follow the green lines from the black print chosen, and it will lead to other two or three black prints.)

* The needed controls here are ON/OFF, UP, DOWN. If you will notice, this buttons are functioning on the two close black prints. Those black prints are needed to be controlled, so they must be connected to Arduino. There are only five black prints needed, so we will need only five wires to be soldered. We will solder only the green wires attached to the black prints needed (the green wires are insulated. To erase its insulation, use a sharp thing to erase it and be careful). Solder only the bronze part where the insulation is erased. Be careful when soldering the bronze part, for when you pull it too much, the connection of the bronze will be destroyed. The combination of the left part from “Mode to “Set” is 3,9,6,11,10,11,3,11,10,5,6,5. The right part from “Power” to “Temperature Down” is 3,5,6,9,10,9.

* Get the Breadboard and mount up the transistors resistors and wires. The transistor is NPN. Search for the pin configuration of the transistor (2N3904). The emitter(E) must be connected to the Ground(Gnd), Base(B) connected to the resistor, Collector(C) connected to the remote control. There are five sets of transistors needed here.

* To connect the breadboard to the Arduino Micro, connect the Ground of the Breadboard to the ground of the Arduino, the resistors toward the PWMs of arduino. Arrange the connection of the wires from the remote to the transistor to the resistor to the Arduino.

'''Other Pictures:'''

[[File:PCB setup 1.jpg|250px]]
[[File:Remote PCB 1.jpg|250px]]
[[File:Breadboard setup 1.jpg|250px]]
[[File:Whole_setup_1.jpg|250px]]
[[File:Whole setup 2.jpg|250px]]
[[File:Whole setup 3.jpg|250px]]
[[File:Whole_setup_4.jpg|250px]]
[[File:Remote Schematic PCB.png|200px]]

 

==Development Team==
* '''Elijah L. Lingbanan'''

 

==References==

"http://arduino.cc/en/Main/arduinoBoardMicro"
"http://www.instructables.com/id/Control-an-Arduino-with-PHP/?ALLSTEPS"
"https://www.youtube.com/watch?v=ROBqcQ2YEB8"
"http://www.instructables.com/id/Build-a-transistor-circuit-board-for-controlling-A/?ALLSTEPS"

 

==See Also==
* [[Sensors and Controls @ DILC]]

 

[[Category:DILC Projects]]

Web-Available Aircon Control

2014-04-22T09:57:59Z

Elijah.lingbanan: /* Components */

A component of the [[Sensors and Controls @ DILC]] Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web.

__NOTOC__

==Components==

* 5 pcs. Transistors (2N3904)

[[File:2N3904-NPN-General-Purpose-Amplifier.jpg|150px]]

* 5 pcs. Resistors (22K ohms)

[[File:Resistor final.jpg|150px]]

* PCB

[[File:PCB.jpg|150px]]

* Breadboard

[[File:Breadboard final.jpg |150px]]

* Wires - "Solid and Stranded"

* CD-R KING Universal Remote Control

[[File:Remote Control.jpg|150px]]

* Arduino Micro

[[File:Arduinomicro final.jpg|150px]]

'''Schematic Diagram:'''

[[File:Schematic Diagram.png]]

==Important Steps==
* On the board of the remote, you will see black prints. These prints are very thin so do not try to solder on them because you might destroy the connections. Try to sketch the black prints, then connect the surface with other black prints as seen in the documentation. (The black prints can be connected by the means of green thin lines connecting them. Try to follow the green lines from the black print chosen, and it will lead to other two or three black prints.)

* The needed controls here are ON/OFF, UP, DOWN. If you will notice, this buttons are functioning on the two close black prints. Those black prints are needed to be controlled, so they must be connected to Arduino. There are only five black prints needed, so we will need only five wires to be soldered. We will solder only the green wires attached to the black prints needed (the green wires are insulated. To erase its insulation, use a sharp thing to erase it and be careful). Solder only the bronze part where the insulation is erased. Be careful when soldering the bronze part, for when you pull it too much, the connection of the bronze will be destroyed. The combination of the left part from “Mode to “Set” is 3,9,6,11,10,11,3,11,10,5,6,5. The right part from “Power” to “Temperature Down” is 3,5,6,9,10,9.

* Get the Breadboard and mount up the transistors resistors and wires. The transistor is NPN. Search for the pin configuration of the transistor (2N3904). The emitter(E) must be connected to the Ground(Gnd), Base(B) connected to the resistor, Collector(C) connected to the remote control. There are five sets of transistors needed here.

* To connect the breadboard to the Arduino Micro, connect the Ground of the Breadboard to the ground of the Arduino, the resistors toward the PWMs of arduino. Arrange the connection of the wires from the remote to the transistor to the resistor to the Arduino.

'''Other Pictures:'''

[[File:PCB setup 1.jpg|250px]]
[[File:Remote PCB 1.jpg|250px]]
[[File:Breadboard setup 1.jpg|250px]]
[[File:Whole_setup_1.jpg|250px]]
[[File:Whole setup 2.jpg|250px]]
[[File:Whole setup 3.jpg|250px]]
[[File:Whole_setup_4.jpg|250px]]
[[File:Remote Schematic PCB.png|200px]]

 

==Development Team==
* '''Elijah L. Lingbanan'''

 

==References==

"http://arduino.cc/en/Main/arduinoBoardMicro"
"http://www.instructables.com/id/Control-an-Arduino-with-PHP/?ALLSTEPS"
"https://www.youtube.com/watch?v=ROBqcQ2YEB8"
"http://www.instructables.com/id/Build-a-transistor-circuit-board-for-controlling-A/?ALLSTEPS"

 

==See Also==
* [[Sensors and Controls @ DILC]]

 

[[Category:DILC Projects]]

Sensors and Controls @ DILC

2014-04-22T03:38:34Z

Elijah.lingbanan: /* Web-Available Aircon Control */

{| align="right"
| __TOC__
|}
=Description=
a cost-effective, robust, integrated multi-trigger security and alert system using off-the-shelf or recycled hardware and sensors and open-source software technologies for messaging, video streaming and recording, machine vision, video analytics, thermal and power monitoring and control. It provides multi-channel feedback (Twitter, Email, SMS, etc).
 

=Trigger Events=
* heat (aircon not working, fire)
* smoke (smoke detector linked to online alarm system)
* motion (person entering/leaving building or room)
* sound (fans, batteries failing, alarm of non-networked motion or thermal sensors)
* power outage
 
[[Image:Big_Plan-Sensors.jpg|thumb|350px|alpha version of the "big plan" for smoke and heat sensors]]

=Output=
* SMS
* email
* video recording
* log recording
* alarm (sound, light)
* Tweet
* phone dialling
 

=Specs=
IP camera, POE (Power Over Ethernet), direct-to-NAS recording (AFP, SAMBA, or NFS), inputs for PIR sensors, Infra Red light for night vision, mechanical IR-Cut Filter Switch (basic surveillance functions incorporated into the camera; camera sends stream when preset event occurs; system send SMS/email), NAS (www.nas4free.org - ZSF file system 4 TB RAID Z2)

 

----
==Smoke and Temp Module==
[[Image:Proximity-sensors-controls.jpg|350px|right]]
This module monitors room temperature independent of on-board temperature sensors (also monitored) in our servers. It is especially useful in keeping optimal temperature for DILC's data center. Cooling the room too much is a waste of energy. Temperature readings are occasionally verified using 3rd-party thermal instruments.

 
Controller:
:: [http://www.e-gizmo.com/KIT/gizDuino%20X.html Gizduino X] (see [http://www.scribd.com/doc/92178907/Arduino-Manual manual])
 
Sensors:
[[File:Arduino_micro.jpeg|350px|thumb|right|Arduino micro for aircon control]]
:: temp: [http://www.engineersgarage.com/sites/default/files/LM35.PDF LM 35]. See [http://learn.adafruit.com/tmp36-temperature-sensor/using-a-temp-sensor this]
:: [http://www.e-gizmo.com/KIT/smokesensor.htm smoke]
 
[[File:Monitoring_screen-beta.png|350px|thumb|center|temperature monitoring screen]]
Shields:
:: [http://www.e-gizmo.com/KIT/ethernet%20shield.html ethernet]. See also [http://arduino.cc/en/Main/ArduinoEthernetShield Arduino Ethernet Shield]
 

 

===[[Web-Available Aircon Control]]===

[[Web-Available_Aircon_Control|More info]]

 

==Motion Detection and Video Monitoring Module==
[[File:Logbank_cams.png]] 
* combination of mid-, low-end; recycled, old, new cams
* redundant off-site recordings (continuous and motion-activated events) and picture snapshots
[[File:camera.jpg|200px|thumb|left|old camera parts]][[File:CameraZOOM-20130917123206272.jpg|thumb|200px|center|Interns doing camera configuration]] 
* motion sensors compensate for "blind spots" 
[[File:Sample_night_vision_shot.png|200px|thumb|left|sample night vision shot]]
 

 

 

==='''Proximity Sensor via Ultrasonic Sonar Module'''===

----

This is an Arduino micro-based Proximity Sensor through the integration of Ultrasonic Sonar module. With this, one can easily monitor if there's someone near or around a specific area, say, room, door, gate.

----

I. '''OBJECTIVES'''
* To make an Arduino based Proximity sensor via Ultrasonic Sonar module
* To simulate effectiveness by varying distances

----

II. '''MATERIALS & COMPONENTS'''
* Arduino micro
* Ultrasonic Sonar Module (US-100)
* Jumper wires
* 8 (Light Emitting Diodes) LEDs
* 8 220K ohms Resistors
* Printed Circuit Board (PCB)
* Buzzer
* Computer (for Arduino code)

----

III. '''PROCEDURES'''

1. Prepare all the materials.

2. Put the corresponding components onto the breadboard. Make sure that the pins of the components are properly put to ensure the efficiency of the circuit.

3. There are 5 pins of the US-100. From the back facing yourself, the 2 pins form the left are '''GROUND'''. The third pin from the left is the '''ECHO''', followed by the '''TRIGGER''' and lastly, the rightmost one, the '''VCC''' or the power.

[[File:US100_BACK.jpg|200px]] [[File:US_100_FRONT.jpg|300px]]

4. Connect the TRIGGER pin to Pin 6 of the Arduino micro. Connect the ECHO pin to Pin 7 of the Arduino micro.

5. Make a connection between the 2 GROUND pins and connect it to GROUND of the Arduino micro. Also connect the VCC or power to the 5V pin of the Arduino micro.

6. For the indication purposes, you will connect 3 LEDs and a small buzzer. The GROUND pins of the LEDs and buzzer will be connected to the GROUND pin of the US-100. The ANODE pins of LED1 to '''pin 8''', LED2 to '''pin 9''' and LED3 to '''pin 10'''.

----

IV. '''SIMULATION'''

----

V. '''OTHER PHOTOS'''

----

VI. '''REFERENCES'''

 

----

==Power Monitoring Module==
* uses embedded sensors to monitor temperature and power outage and recovery

[[File:Power_dashboard.png|250px|thumb|left|power summary]][[File:Temp_sensor.png|250px|thumb|center|UPS temp reading for a day]]

 

* redundant power-failure alert system
[[File:Power_failure_notice.png|250px|thumb|left|UPS Notice from Site 1 (Mezza North)]]
[[File:UPS_notice_2.png|350|300px|thumb|center|UPS Notice from Site 2]]
 
 
 

----

==NAS Module==
* [[Network_Attached_Storage|Network-Attached Storage]]
 

----

==Messaging Module==
[[File:Part_of_a_dongle_dashboard.png|300px|thumb|right|part of a GSM Dongles dashboard @DILC]]
* USB Dongle. See [http://wammu.eu/phones Gammu compatible devices]
* [http://wammu.eu/ Gammu]
* Php Mailer

 

 

----

==Webapps and Dashboard Module==
:: Framework Choices: [http://twistedmatrix.com/trac/ Twisted], [http://nodejs.org Nodejs] or [http://en.wikipedia.org/wiki/Reactor_pattern alternatives]
* to incorporate streams of data from sensors embedded in equipment

 

----
=Developers=
 
'''Temperature Sensor Dashboard'''
* Karen Calado
* Harell Juanico

 

'''Temp/Smoke Sensor'''
* Rowel Cababat
* Joven Baluyot
* Carlito Graza
* Erickson Sombillo

 

'''Video Monitoring'''
* Bonifacio Badilla
* Zandro Paul Abadiac

 

'''AC Remote Sensor'''
* Elijah Lingbanan
* Emannuel Abalain

 

'''Proximity Sensor'''
* Chris Manuel Garcia
 
 

----

=Readings=
'''Power Monitoring'''
* [http://openenergymonitor.org/emon/ OpenEnergyMonitor]
* [http://www.picobay.com/projects/2009/01/real-time-web-based-power-charting.html "Real-time Web Based Power Charting"]
 
'''Sensors'''
* [http://blog.spark.io/2014/01/17/open-source-thermostat/ Building an open source Nest]
 
'''Video'''
* [http://www.roborealm.com/links/vision_software.php Vision Software]
* [http://www.cctvlenscalculator.com/ cctv lens calculator] - not just any cam please!
* [http://avtech.com/Products/Monitor_-_Sensors/MUPS.htm Avtech Products] - benchmark projects with prices here.
* [http://www.ispyconnect.com iSpy]
* [http://code.google.com/p/openvss/ Open Platform Video Surveillance System]
* [http://www.zoneminder.com/ ZoneMinder]
* [http://opencv.org OpenCV]
* [http://scene.sourceforge.net/ Scene]
* [http://wxcam.sourceforge.net/ wxCam]
* [http://www.lavrsen.dk/foswiki/bin/view/Motion/WebHome Motion]. See also [http://ubuntuforums.org/showthread.php?t=1897786 this discussion]
 
'''SMS'''
* [http://wammu.eu/ Wammu]

 
----

=See Also=
* [[Biometric and Security Console]]
* [[logBank]]
* [http://dilc.info/intern dilc.info/intern]
* [[D I L C Media Lab]]

 

[[Category:DILC Matters]][[Category:DILC Projects]]

Web-Available Aircon Control

2014-04-21T09:16:35Z

Elijah.lingbanan:

A component of the [[Sensors and Controls @ DILC]] Project, Web-Avaiable Aircon Control is a prototype aircon remote sensor controllable via Web.

__NOTOC__

==Components==

* 5 pcs. Transistors (2N3904)

[[File:2N3904-NPN-General-Purpose-Amplifier.jpg|150px]]

* 5 pcs. Resistors (22K ohms)

[[File:Resistor final.jpg|150px]]

* PCB

[[File:PCB.jpg|150px]]

* Breadboard

[[File:Breadboard final.jpg |150px]]

* Wires - "Solid and Stranded"

* CD-R KING Universal Remote Control

[[File:Remote Control.jpg|150px]]

* Arduino Micro

[[File:Arduinomicro final.jpg|150px]]

'''Schematic Diagram:'''

[[File:Schematic Diagram.png]]

==Important Steps==
* On the board of the remote, you will see black prints. These prints are very thin so do not try to solder on them because you might destroy the connections. Try to sketch the black prints, then connect the surface with other black prints as seen in the documentation. (The black prints can be connected by the means of green thin lines connecting them. Try to follow the green lines from the black print chosen, and it will lead to other two or three black prints.)

* The needed controls here are ON/OFF, UP, DOWN. If you will notice, this buttons are functioning on the two close black prints. Those black prints are needed to be controlled, so they must be connected to Arduino. There are only five black prints needed, so we will need only five wires to be soldered. We will solder only the green wires attached to the black prints needed (the green wires are insulated. To erase its insulation, use a sharp thing to erase it and be careful). Solder only the bronze part where the insulation is erased. Be careful when soldering the bronze part, for when you pull it too much, the connection of the bronze will be destroyed. The combination of the left part from “Mode to “Set” is 3,9,6,11,10,11,3,11,10,5,6,5. The right part from “Power” to “Temperature Down” is 3,5,6,9,10,9.

* Get the Breadboard and mount up the transistors resistors and wires. The transistor is NPN. Search for the pin configuration of the transistor (2N3904). The emitter(E) must be connected to the Ground(Gnd), Base(B) connected to the resistor, Collector(C) connected to the remote control. There are five sets of transistors needed here.

* To connect the breadboard to the Arduino Micro, connect the Ground of the Breadboard to the ground of the Arduino, the resistors toward the PWMs of arduino. Arrange the connection of the wires from the remote to the transistor to the resistor to the Arduino.

'''Other Pictures:'''

[[File:PCB setup 1.jpg|250px]]
[[File:Remote PCB 1.jpg|250px]]
[[File:Breadboard setup 1.jpg|250px]]
[[File:Whole_setup_1.jpg|250px]]
[[File:Whole setup 2.jpg|250px]]
[[File:Whole setup 3.jpg|250px]]
[[File:Whole_setup_4.jpg|250px]]
[[File:Remote Schematic PCB.png|200px]]

 

==Development Team==
* '''Elijah L. Lingbanan'''

 

==References==

"http://arduino.cc/en/Main/arduinoBoardMicro"
"http://www.instructables.com/id/Control-an-Arduino-with-PHP/?ALLSTEPS"
"https://www.youtube.com/watch?v=ROBqcQ2YEB8"
"http://www.instructables.com/id/Build-a-transistor-circuit-board-for-controlling-A/?ALLSTEPS"

 

==See Also==
* [[Sensors and Controls @ DILC]]

 

[[Category:DILC Projects]]

File:Whole setup 1.jpg

2014-04-21T09:14:39Z

Elijah.lingbanan: Elijah.lingbanan uploaded a new version of "File:Whole setup 1.jpg"

File:Whole setup 2.jpg

2014-04-21T09:12:28Z