We understand the importance of hands-on learning in the field of control systems, which is why we are proud to offer a variety of control systems projects that are specifically designed for students. Our projects are carefully crafted to provide a challenging, yet manageable, learning experience that will help you develop the skills you need to succeed in the control systems industry.
Project Code: TEMACS906
Project Title:Lower Energy Storage-Based 9L- Switched Capacitor ANPC Inverter Topology With Voltage Boosting FeaturesView DetailsProject Code: TEMACS905
Project Title:Enhanced FCS-MPC for DFIG Under Non-Ideal Grid ConditionsView DetailsProject Code: TEMACS904
Project Title:Extended State Observer-Based Robust Model Predictive Velocity Control for Permanent Magnet Synchronous MotorView DetailsProject Code: TEMACS903
Project Title:A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Online Sliding Surface Adjustment for Buck ConvertersView DetailsProject Code: TEMACS901
Project Title:Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Charging Station for Electric VehiclesView DetailsProject Code: TEMACS902
Project Title:Enhanced Harmony Search Algorithm for Maximum Power Point Tracking Under Partial Shading in PV SystemsView DetailsProject Code: TEMACS900
Project Title:A Hybrid P&O-Fuzzy-Based Maximum Power Point Tracking (MPPT) Algorithm for Photovoltaic Systems Under Partial Shading ConditionsView DetailsProject Code: TEMACS899
Project Title:Improved Sliding Mode Control for Performance Enhancement of PMD Battery Charger USING Fuzzy Logic ControlView DetailsProject Code: TEMACS898
Project Title:A Novel LQI-Based Speed Control of Switched Reluctance Motors for High Performance ApplicationsView DetailsProject Code: TEMACS897
Project Title:Performance Improvement of Grid-Connected PV-Wind Hybrid Systems Using Adaptive Neuro-Fuzzy Inference System and Fuzzy FOPID Advanced Control With OPAL-RTView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEMACS906 | Lower Energy Storage-Based 9L- Switched Capacitor ANPC Inverter Topolo... | |
2 | TEMACS905 | Enhanced FCS-MPC for DFIG Under Non-Ideal Grid Conditions | |
3 | TEMACS904 | Extended State Observer-Based Robust Model Predictive Velocity Control... | |
4 | TEMACS903 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
5 | TEMACS901 | Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Cha... | |
6 | TEMACS902 | Enhanced Harmony Search Algorithm for Maximum Power Point Tracking Und... | |
7 | TEMACS900 | A Hybrid P&O-Fuzzy-Based Maximum Power Point Tracking (MPPT) Algorithm... | |
8 | TEMACS899 | Improved Sliding Mode Control for Performance Enhancement of PMD Batte... | |
9 | TEMACS898 | A Novel LQI-Based Speed Control of Switched Reluctance Motors for High... | |
10 | TEMACS897 | Performance Improvement of Grid-Connected PV-Wind Hybrid Systems Using... |
Project Code: TEMACS906
Project Title:Lower Energy Storage-Based 9L- Switched Capacitor ANPC Inverter Topology With Voltage Boosting FeaturesView DetailsProject Code: TEMACS905
Project Title:Enhanced FCS-MPC for DFIG Under Non-Ideal Grid ConditionsView DetailsProject Code: TEMACS904
Project Title:Extended State Observer-Based Robust Model Predictive Velocity Control for Permanent Magnet Synchronous MotorView DetailsProject Code: TEMACS903
Project Title:A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Online Sliding Surface Adjustment for Buck ConvertersView DetailsProject Code: TEMACS901
Project Title:Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Charging Station for Electric VehiclesView DetailsProject Code: TEMACS902
Project Title:Enhanced Harmony Search Algorithm for Maximum Power Point Tracking Under Partial Shading in PV SystemsView DetailsProject Code: TEMACS900
Project Title:A Hybrid P&O-Fuzzy-Based Maximum Power Point Tracking (MPPT) Algorithm for Photovoltaic Systems Under Partial Shading ConditionsView DetailsProject Code: TEMACS899
Project Title:Improved Sliding Mode Control for Performance Enhancement of PMD Battery Charger USING Fuzzy Logic ControlView DetailsProject Code: TEMACS898
Project Title:A Novel LQI-Based Speed Control of Switched Reluctance Motors for High Performance ApplicationsView DetailsProject Code: TEMACS897
Project Title:Performance Improvement of Grid-Connected PV-Wind Hybrid Systems Using Adaptive Neuro-Fuzzy Inference System and Fuzzy FOPID Advanced Control With OPAL-RTView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEMACS906 | Lower Energy Storage-Based 9L- Switched Capacitor ANPC Inverter Topolo... | |
2 | TEMACS905 | Enhanced FCS-MPC for DFIG Under Non-Ideal Grid Conditions | |
3 | TEMACS904 | Extended State Observer-Based Robust Model Predictive Velocity Control... | |
4 | TEMACS903 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
5 | TEMACS901 | Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Cha... | |
6 | TEMACS902 | Enhanced Harmony Search Algorithm for Maximum Power Point Tracking Und... | |
7 | TEMACS900 | A Hybrid P&O-Fuzzy-Based Maximum Power Point Tracking (MPPT) Algorithm... | |
8 | TEMACS899 | Improved Sliding Mode Control for Performance Enhancement of PMD Batte... | |
9 | TEMACS898 | A Novel LQI-Based Speed Control of Switched Reluctance Motors for High... | |
10 | TEMACS897 | Performance Improvement of Grid-Connected PV-Wind Hybrid Systems Using... |
Project Code: TEMACS906
Project Title:Lower Energy Storage-Based 9L- Switched Capacitor ANPC Inverter Topology With Voltage Boosting FeaturesView DetailsProject Code: TEMACS905
Project Title:Enhanced FCS-MPC for DFIG Under Non-Ideal Grid ConditionsView DetailsProject Code: TEMACS904
Project Title:Extended State Observer-Based Robust Model Predictive Velocity Control for Permanent Magnet Synchronous MotorView DetailsProject Code: TEMACS903
Project Title:A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Online Sliding Surface Adjustment for Buck ConvertersView DetailsProject Code: TEMACS901
Project Title:Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Charging Station for Electric VehiclesView DetailsProject Code: TEMACS902
Project Title:Enhanced Harmony Search Algorithm for Maximum Power Point Tracking Under Partial Shading in PV SystemsView DetailsProject Code: TEMACS900
Project Title:A Hybrid P&O-Fuzzy-Based Maximum Power Point Tracking (MPPT) Algorithm for Photovoltaic Systems Under Partial Shading ConditionsView DetailsProject Code: TEMACS899
Project Title:Improved Sliding Mode Control for Performance Enhancement of PMD Battery Charger USING Fuzzy Logic ControlView DetailsProject Code: TEMACS898
Project Title:A Novel LQI-Based Speed Control of Switched Reluctance Motors for High Performance ApplicationsView DetailsProject Code: TEMACS897
Project Title:Performance Improvement of Grid-Connected PV-Wind Hybrid Systems Using Adaptive Neuro-Fuzzy Inference System and Fuzzy FOPID Advanced Control With OPAL-RTView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEMACS906 | Lower Energy Storage-Based 9L- Switched Capacitor ANPC Inverter Topolo... | |
2 | TEMACS905 | Enhanced FCS-MPC for DFIG Under Non-Ideal Grid Conditions | |
3 | TEMACS904 | Extended State Observer-Based Robust Model Predictive Velocity Control... | |
4 | TEMACS903 | A Second-Order Sliding Mode Control Scheme With Fuzzy Logic-Based Onli... | |
5 | TEMACS901 | Optimized ANFIS-Based Robust Nonlinear Control of a Solar Off-Grid Cha... | |
6 | TEMACS902 | Enhanced Harmony Search Algorithm for Maximum Power Point Tracking Und... | |
7 | TEMACS900 | A Hybrid P&O-Fuzzy-Based Maximum Power Point Tracking (MPPT) Algorithm... | |
8 | TEMACS899 | Improved Sliding Mode Control for Performance Enhancement of PMD Batte... | |
9 | TEMACS898 | A Novel LQI-Based Speed Control of Switched Reluctance Motors for High... | |
10 | TEMACS897 | Performance Improvement of Grid-Connected PV-Wind Hybrid Systems Using... |
Our Takeoff Edu Group's control systems projects covers a wide range of topics, from basic control theory to advanced applications such as robotics, autonomous vehicles, and process control. We use the latest tools and technologies, including software such as MATLAB, Simulink, and Python, to help you develop a strong foundation in control systems and prepare you for the challenges of the future.
Our team of experts has years of experience in the field and is dedicated to helping you succeed. They are available to answer your questions and provide guidance throughout the project. Whether you are a beginner or an advanced student, our control systems projects are designed to meet your needs and help you achieve your goals.
We believe that hands-on learning is the key to success in the control systems industry, and our control systems projects are the perfect way to get started. So why wait? Sign up for one of our projects today and start building your skills!
We are confident that you will find our control systems projects to be both challenging and rewarding. We look forward to helping you achieve your goals and becoming a leader in the field of control systems.