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$25 USD / hora
Bandeira do(a) ALGERIA
mila, algeria
$25 USD / hora
No momento são 6:45 AM aqui
Entrou no Freelancer em abril 20, 2020
0 Recomendações

Zakarya S.

@ZAKI102

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5,0 (41 avaliações)
5,0
5,0
$25 USD / hora
Bandeira do(a) ALGERIA
mila, algeria
$25 USD / hora
94%
Trabalhos Concluídos
93%
Dentro do Orçamento
89%
No Prazo
12%
Taxa de Recontratação

Automation Engineer

Experienced Automation Engineer with a demonstrated history of working in the construction industry and machine building. Strong quality assurance professional with a Master's Degree focused in Automation, Industrial Engineering, Robotics, Analysis and Processing of Data, Development and Project Management, IOT. A lot of experience in automation of batching process (batching plants...), vibro-press systems for concrete products and products transportation and packing, recycling machines, horizontal and vertical flow packing machines, ATS system, keg washing machines, can filling machines, clean room machines, positioning szstems. Specialized in developing control systems for machines and prototypes hardware and software side, and control system retrofitting. Skills: Design of technical drawings Development of PLC, HMI and SCADA software Node Red and IOT integration. Managing the process of receiving, installing and commissioning new equipment Testing of manufactured machines Training and technical support to customers Putting machines into operation on the site and over the Internet Worked with automation equipment from: Siemens, Schneider Electric, Omron, ABB, Beckhoff, Festo, Eaton, Yaskawa, Fatek, Weintek, Mitsubishi, Yaskawa, Unitronics, Kinco, Coolmay, Xinje, Coolmay and many others.
Freelancer Electrical Engineers Algeria

Contate Zakarya S. para falar sobre o seu trabalho

Entre para falar sobre qualquer detalhe pelo chat

Itens de Portfólio

This work focuses on the automation and supervision of a water distribution system at  Airport. During our project, I studied the current installation and assimilate its operation to achieve a project specification by respecting that installation, integrating four industrials programmable automats with a monitoring interface. Our work is divided into several parts: identify hardware to use, develop an PLC S7 1200 program through TIAPORTAL  software, design a monitoring interface and remote management HMI via SIMATIC WINCC with a network communication system and make electrical schematics
Automation and supervision of a water distribution system
This work focuses on the automation and supervision of a water distribution system at  Airport. During our project, I studied the current installation and assimilate its operation to achieve a project specification by respecting that installation, integrating four industrials programmable automats with a monitoring interface. Our work is divided into several parts: identify hardware to use, develop an PLC S7 1200 program through TIAPORTAL  software, design a monitoring interface and remote management HMI via SIMATIC WINCC with a network communication system and make electrical schematics
Automation and supervision of a water distribution system
This work focuses on the automation and supervision of a water distribution system at  Airport. During our project, I studied the current installation and assimilate its operation to achieve a project specification by respecting that installation, integrating four industrials programmable automats with a monitoring interface. Our work is divided into several parts: identify hardware to use, develop an PLC S7 1200 program through TIAPORTAL  software, design a monitoring interface and remote management HMI via SIMATIC WINCC with a network communication system and make electrical schematics
Automation and supervision of a water distribution system
This work focuses on the automation and supervision of a water distribution system at  Airport. During our project, I studied the current installation and assimilate its operation to achieve a project specification by respecting that installation, integrating four industrials programmable automats with a monitoring interface. Our work is divided into several parts: identify hardware to use, develop an PLC S7 1200 program through TIAPORTAL  software, design a monitoring interface and remote management HMI via SIMATIC WINCC with a network communication system and make electrical schematics
Automation and supervision of a water distribution system
This work focuses on the automation and supervision of a water distribution system at  Airport. During our project, I studied the current installation and assimilate its operation to achieve a project specification by respecting that installation, integrating four industrials programmable automats with a monitoring interface. Our work is divided into several parts: identify hardware to use, develop an PLC S7 1200 program through TIAPORTAL  software, design a monitoring interface and remote management HMI via SIMATIC WINCC with a network communication system and make electrical schematics
Automation and supervision of a water distribution system
This work focuses on the automation and supervision of a water distribution system at  Airport. During our project, I studied the current installation and assimilate its operation to achieve a project specification by respecting that installation, integrating four industrials programmable automats with a monitoring interface. Our work is divided into several parts: identify hardware to use, develop an PLC S7 1200 program through TIAPORTAL  software, design a monitoring interface and remote management HMI via SIMATIC WINCC with a network communication system and make electrical schematics
Automation and supervision of a water distribution system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
For the sake of making a fully automated centralized Air conditioning system at the airport, 10 Rooftop system automation in one plc S7 1200
Supervised control of the air conditioning system
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
The objective of this project is to propose solutions for the various malfunctions and anomalies of the baggage check in and treating system. It is about to make an automated system with two modes of operation, the first one is based on hard-wired logic and the second one is based on PLC. The executed project is carried out over several phases; configuration of the equipment used in the proposed solution, implementation of the wiring diagrams and the assembly of the electrical cabinet, the programming of the PLC and the design of the two display stations (PC interface and an HMI panel)
Conveyer system automation with PLC Siemens and VFDs
A Smart stick contains 3 sensors UltraSonic for detected near objects and  GPS module  to determine the actual location of  the blind
when the blink click on the button the smart stick send  Emergency SMS  via the SIM module (SIM900D)
Video of the project: https://www.youtube.com/watch?v=mJwDNTDSz4A
Smart Stick project with GPS Position and SMS module
A Smart stick contains 3 sensors UltraSonic for detected near objects and  GPS module  to determine the actual location of  the blind
when the blink click on the button the smart stick send  Emergency SMS  via the SIM module (SIM900D)
Video of the project: https://www.youtube.com/watch?v=mJwDNTDSz4A
Smart Stick project with GPS Position and SMS module
A Smart stick contains 3 sensors UltraSonic for detected near objects and  GPS module  to determine the actual location of  the blind
when the blink click on the button the smart stick send  Emergency SMS  via the SIM module (SIM900D)
Video of the project: https://www.youtube.com/watch?v=mJwDNTDSz4A
Smart Stick project with GPS Position and SMS module
A Smart stick contains 3 sensors UltraSonic for detected near objects and  GPS module  to determine the actual location of  the blind
when the blink click on the button the smart stick send  Emergency SMS  via the SIM module (SIM900D)
Video of the project: https://www.youtube.com/watch?v=mJwDNTDSz4A
Smart Stick project with GPS Position and SMS module
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
Robot 6DOF: forward kinematics and inverse kinematics
simulate a self-parking car with just three components: a path, a vehicle model, and a path following algorithm. This model can be applied to all autonomous robots – not just self-driving cars.
Link of project : https://www.youtube.com/watch?v=tjsxQxNaWnw
Automatic path driving for Autonomous Vehicle in Simulink
simulate a self-parking car with just three components: a path, a vehicle model, and a path following algorithm. This model can be applied to all autonomous robots – not just self-driving cars.
Link of project : https://www.youtube.com/watch?v=tjsxQxNaWnw
Automatic path driving for Autonomous Vehicle in Simulink
simulate a self-parking car with just three components: a path, a vehicle model, and a path following algorithm. This model can be applied to all autonomous robots – not just self-driving cars.
Link of project : https://www.youtube.com/watch?v=tjsxQxNaWnw
Automatic path driving for Autonomous Vehicle in Simulink
simulate a self-parking car with just three components: a path, a vehicle model, and a path following algorithm. This model can be applied to all autonomous robots – not just self-driving cars.
Link of project : https://www.youtube.com/watch?v=tjsxQxNaWnw
Automatic path driving for Autonomous Vehicle in Simulink
simulate a self-parking car with just three components: a path, a vehicle model, and a path following algorithm. This model can be applied to all autonomous robots – not just self-driving cars.
Link of project : https://www.youtube.com/watch?v=tjsxQxNaWnw
Automatic path driving for Autonomous Vehicle in Simulink
simulate a self-parking car with just three components: a path, a vehicle model, and a path following algorithm. This model can be applied to all autonomous robots – not just self-driving cars.
Link of project : https://www.youtube.com/watch?v=tjsxQxNaWnw
Automatic path driving for Autonomous Vehicle in Simulink
simulate a self-parking car with just three components: a path, a vehicle model, and a path following algorithm. This model can be applied to all autonomous robots – not just self-driving cars.
Link of project : https://www.youtube.com/watch?v=tjsxQxNaWnw
Automatic path driving for Autonomous Vehicle in Simulink

Avaliações

Mudanças salvas
Mostrando 1 - 5 de 41 avaliações
Filtrar avaliações por: 5,0
$45,00 USD
Zakarya was very helpful, he responds back quick, and he will help you as much as he can.
Engineering Electronics Microcontroller PLC & SCADA Electrical Engineering
M
Bandeira do(a) Mike F. @mike77f
há 2 meses
5,0
$140,00 USD
Great guy to work with!
Engineering Mathematics MATLAB
Avatar do Usuário
Bandeira do(a) Daniel O. @danielonwude
há 9 meses
5,0
$30,00 USD
zakarya has done an amazing job. very happy with the results and 100% recommended. Thanks
Avatar do Usuário
Bandeira do(a) Farouk Gaber A. @FaroukAwadalla
há 10 meses
5,0
$290,00 USD
I recommend zakria because of his efforts and skills
Engineering Virtual Machines Simulation
F
Bandeira do(a) F S. @FSalah45
há 10 meses
5,0
$55,00 USD
He is truly amazing and delivered on time. I will use his services again.
Electronics Matlab and Mathematica Electrical Engineering Mathematics
+1 mais
D
Bandeira do(a) Ayoub A. @Dxb2019
há 10 meses

Experiência

Automation Engineering

Establishment of Management of Airport Services (EGSA) Constantine
dez. 2019 - Atual
Automation of Baggage handling system Automation of the air conditioning systems at the Constantine airport Planning of electrical diagrams Programming of Siemens PLCs Repair of Baggage scanners (Rapiscan and Smiths Heimann) Repair of telemonitoring systems

Educação

PhD in control systems and robotics

Université Mentouri de Constantine, Algeria 2018 - 2021
(3 anos)

Master Degree in control systems and industrial informatics

Université Mentouri de Constantine, Algeria 2013 - 2018
(5 anos)

Contate Zakarya S. para falar sobre o seu trabalho

Entre para falar sobre qualquer detalhe pelo chat

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Principais Habilidades

Electrical Engineering 29 Electronics 28 Matlab and Mathematica 21 Robotics 17 Arduino 12

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