What Is Car Performance Monitoring Software & How Does It Work?

Car Performance Monitoring Software offers real-time insights into your vehicle’s health, enabling proactive maintenance and performance optimization, and CAR-REMOTE-REPAIR.EDU.VN is here to guide you through it. These software solutions offer fault code analysis, sensor data interpretation, and customization options. Take control of your car’s diagnostics, enhance your skillset, and unlock hidden potential with our expert guidance and educational resources.

1. What is Car Performance Monitoring Software?

Car performance monitoring software is a diagnostic tool that uses data from a vehicle’s onboard computer to provide real-time insights into its operational status. These systems use On-Board Diagnostics (OBD) to relay information about engine performance, fuel efficiency, and other critical parameters to a user interface.

1.1 What is the primary function of car performance monitoring software?

The primary function of car performance monitoring software is to provide real-time data on vehicle performance, allowing users to monitor engine health, fuel efficiency, and other critical parameters. This enables proactive maintenance and early detection of potential issues. According to a report by the National Institute for Automotive Service Excellence (ASE), proactive maintenance based on real-time data can reduce repair costs by up to 30%.

1.2 What types of data can car performance monitoring software track?

Car performance monitoring software can track a wide range of data, including:

• Engine Speed (RPM): Revolutions per minute of the engine.
• Coolant Temperature: The temperature of the engine coolant.
• Fuel Consumption: How much fuel the vehicle is using.
• Intake Air Temperature: The temperature of the air entering the engine.
• Oxygen Sensor Readings: Data from the oxygen sensors in the exhaust system.
• Vehicle Speed: The current speed of the vehicle.
• Diagnostic Trouble Codes (DTCs): Codes indicating potential issues or malfunctions.

1.3 What are the key components of car performance monitoring software?

The key components of car performance monitoring software include:

• OBD-II Scanner/Adapter: A device that plugs into the vehicle’s OBD-II port to retrieve data.
• Software Application: The application installed on a computer, smartphone, or tablet that interprets and displays the data.
• User Interface: The visual display that presents the data in a readable format, often including gauges, charts, and graphs.
• Database: A collection of diagnostic trouble codes and vehicle-specific information.

1.4 How does car performance monitoring software connect to a vehicle?

Car performance monitoring software connects to a vehicle using an OBD-II scanner or adapter. These devices plug into the OBD-II port, typically located under the dashboard. According to the Environmental Protection Agency (EPA), all cars and light trucks manufactured after 1996 are required to have an OBD-II port. The scanner communicates with the vehicle’s onboard computer to retrieve data, which is then transmitted to the software application via Bluetooth, Wi-Fi, or a USB cable.

1.5 What are the benefits of using car performance monitoring software?

The benefits of using car performance monitoring software are numerous:

• Early Detection of Problems: Identifies potential issues before they become major repairs.
• Improved Fuel Efficiency: Monitors fuel consumption and driving habits to optimize mileage.
• Enhanced Performance: Provides insights into engine performance, allowing for adjustments to maximize power and efficiency.
• Reduced Repair Costs: Proactive maintenance and early repairs can prevent costly breakdowns.
• Increased Vehicle Lifespan: Regular monitoring and maintenance contribute to the longevity of the vehicle.

2. How Does Car Performance Monitoring Software Work?

Car performance monitoring software operates by extracting data from the vehicle’s onboard diagnostic system and presenting it in a user-friendly format. This process involves several key steps, from data acquisition to interpretation.

2.1 What is the role of the OBD-II port in car performance monitoring?

The OBD-II (On-Board Diagnostics II) port is a standardized interface in vehicles that provides access to the vehicle’s computer system. Its primary role in car performance monitoring is to allow external devices, like scanners and adapters, to retrieve diagnostic and performance data. According to SAE International, the OBD-II standard ensures that all vehicles have a common interface for accessing this information, making it easier for technicians and vehicle owners to monitor vehicle health.

2.2 How does the software collect data from the vehicle’s sensors?

The software collects data from the vehicle’s sensors via the OBD-II port using a scanner or adapter. This device communicates with the vehicle’s computer, requesting specific data points from various sensors throughout the vehicle. These sensors measure parameters such as:

• Engine temperature
• Oxygen levels
• Airflow
• Vehicle speed

The data is then transmitted to the software for analysis and display.

2.3 What types of sensors are commonly monitored by the software?

Commonly monitored sensors include:

• Oxygen Sensors: Measure the amount of oxygen in the exhaust gases to ensure optimal combustion.
• Temperature Sensors: Monitor engine coolant temperature, intake air temperature, and exhaust gas temperature.
• Pressure Sensors: Measure manifold absolute pressure (MAP), fuel pressure, and oil pressure.
• Speed Sensors: Track vehicle speed and wheel speed.
• Mass Airflow (MAF) Sensors: Measure the amount of air entering the engine.
• Throttle Position Sensors (TPS): Indicate the position of the throttle, which controls engine power.

2.4 How is the data interpreted and presented to the user?

Data is interpreted by the software using algorithms and databases that correlate sensor readings with vehicle performance. It’s then presented to the user through a user-friendly interface, typically including:

• Gauges: Real-time displays of sensor data, such as RPM, speed, and temperature.
• Charts: Graphs that show trends over time, such as fuel consumption or engine performance.
• Diagnostic Trouble Codes (DTCs): Codes that indicate potential issues or malfunctions.
• Reports: Summaries of vehicle performance and diagnostic information.

2.5 Can car performance monitoring software diagnose specific issues?

Yes, car performance monitoring software can diagnose specific issues by reading and interpreting Diagnostic Trouble Codes (DTCs). When a sensor detects a problem, it triggers a DTC, which is stored in the vehicle’s computer. The software can retrieve these codes and provide descriptions of the issue, helping users identify the problem and take appropriate action. The National Automotive Service Task Force (NASTF) supports the use of standardized diagnostic tools to ensure accurate and reliable diagnoses.

3. Key Features to Look For in Car Performance Monitoring Software

When selecting car performance monitoring software, it’s crucial to consider the features that best meet your needs. Key features include real-time monitoring, customizable dashboards, diagnostic capabilities, and compatibility.

3.1 What is real-time monitoring and why is it important?

Real-time monitoring involves displaying live data from the vehicle’s sensors as it’s happening. This feature is important because it allows users to:

• Detect Issues Immediately: Identify problems as they occur, rather than waiting for a check engine light.
• Monitor Performance: Track engine performance, fuel efficiency, and other parameters in real-time.
• Make Adjustments: Adjust driving habits or vehicle settings to optimize performance.

3.2 How can customizable dashboards enhance the user experience?

Customizable dashboards allow users to tailor the software’s interface to their specific needs. This enhances the user experience by:

• Displaying Relevant Data: Users can choose which data points to display, focusing on the information that matters most to them.
• Improving Readability: Customization options such as color schemes, gauge styles, and chart types can improve readability and make the data easier to understand.
• Increasing Efficiency: By displaying the most important information prominently, users can quickly assess vehicle performance and identify potential issues.

3.3 What diagnostic capabilities should the software include?

The software should include comprehensive diagnostic capabilities, such as:

• DTC Reading and Clearing: The ability to read and clear Diagnostic Trouble Codes.
• Freeze Frame Data: Access to sensor data recorded at the time a DTC was triggered, providing valuable context for diagnosis.
• Mode 06 Support: Access to ECU self-monitoring test results, helping to identify potential issues before they trigger a DTC.

3.4 Is compatibility with different vehicle makes and models important?

Yes, compatibility with different vehicle makes and models is crucial. The software should support a wide range of vehicles to ensure it can be used with your current and future vehicles. Check the software’s compatibility list to verify that it supports your vehicle’s make, model, and year.

3.5 What additional features can add value to the software?

Additional features that can add value include:

• Data Logging: The ability to record sensor data over time for later analysis.
• Trip Computer Functions: Tracking fuel consumption, distance traveled, and other trip-related data.
• HUD Mode: Displaying data on the windshield for easy viewing while driving.
• Custom PID Support: The ability to add custom Parameter IDs (PIDs) to monitor specific sensors or data points not included in the standard OBD-II set.
• Cloud Connectivity: Storing data in the cloud for access from multiple devices and sharing with mechanics or other professionals.

4. Top Car Performance Monitoring Software Options

Several car performance monitoring software options are available, each with its own strengths and weaknesses. Here are some of the top choices:

4.1 What are some popular car performance monitoring software applications?

Some popular car performance monitoring software applications include:

• Car Scanner ELM OBD2: Known for its extensive features and compatibility.
• Torque Pro: A popular choice for Android users, offering a wide range of customization options.
• OBD Fusion: A versatile option with support for both iOS and Android devices.
• DashCommand: Offers a sleek interface and advanced features like performance testing.
• FORScan: Specifically designed for Ford, Lincoln, and Mercury vehicles, offering advanced diagnostics and customization options.

4.2 What are the pros and cons of each software option?

Here’s a comparison of some popular car performance monitoring software options:

Software	Pros	Cons
Car Scanner ELM OBD2	Extensive features, broad vehicle compatibility, customizable dashboards, free version available	Some advanced features require a one-time purchase or subscription.
Torque Pro	Highly customizable, supports custom PIDs, affordable	Interface can be overwhelming for beginners, Android only.
OBD Fusion	Versatile, supports iOS and Android, comprehensive diagnostics	Some features require in-app purchases.
DashCommand	Sleek interface, advanced features like performance testing	Can be expensive, requires a compatible OBD-II adapter.
FORScan	Specifically designed for Ford vehicles, advanced diagnostics and customization options	Limited to Ford, Lincoln, and Mercury vehicles, requires a Windows PC for full functionality, can be complex for beginners.

4.3 How do these software options compare in terms of features and compatibility?

• Car Scanner ELM OBD2: Stands out for its wide range of features available for free, with additional features unlocked through a one-time purchase or subscription. It’s compatible with a broad range of vehicles and offers customizable dashboards.
• Torque Pro: Excels in customization, allowing users to add custom PIDs and tailor the interface to their liking. However, it’s only available for Android devices and can be overwhelming for beginners.
• OBD Fusion: Offers a balanced set of features and supports both iOS and Android devices. It provides comprehensive diagnostics but requires in-app purchases for some advanced features.
• DashCommand: Is known for its sleek interface and advanced features like performance testing. However, it can be more expensive than other options and requires a compatible OBD-II adapter.
• FORScan: Is specifically designed for Ford vehicles and offers advanced diagnostics and customization options. However, it’s limited to Ford vehicles and requires a Windows PC for full functionality.

4.4 Are there free car performance monitoring software options available?

Yes, several free car performance monitoring software options are available. Car Scanner ELM OBD2 offers a free version with a wide range of features. Other options include free versions of OBD Fusion and Torque Lite. However, free versions typically have limited features compared to their paid counterparts.

4.5 What are the system requirements for each software option?

The system requirements for each software option vary. Generally, most car performance monitoring software requires:

• A smartphone or tablet with iOS or Android operating system.
• A compatible OBD-II adapter (Bluetooth or Wi-Fi).
• Sufficient storage space on the device.
• A stable internet connection for downloading and updating the software.

5. How to Choose the Right Car Performance Monitoring Software

Choosing the right car performance monitoring software involves considering your specific needs, technical expertise, and budget. Here are some steps to guide you through the selection process:

5.1 What factors should I consider when choosing car performance monitoring software?

Consider these factors:

• Vehicle Compatibility: Ensure the software supports your vehicle’s make, model, and year.
• Features: Determine which features are most important to you, such as real-time monitoring, customizable dashboards, or advanced diagnostics.
• Ease of Use: Choose software with a user-friendly interface that is easy to navigate and understand.
• Cost: Consider your budget and whether the software offers a free version or requires a one-time purchase or subscription.
• Reviews: Read reviews from other users to get an idea of the software’s performance and reliability.

5.2 How do I determine compatibility with my vehicle?

To determine compatibility with your vehicle, check the software’s compatibility list on its website or app store page. You can also contact the software developer or consult online forums to see if other users have successfully used the software with your vehicle.

5.3 Should I prioritize ease of use or advanced features?

The choice between ease of use and advanced features depends on your technical expertise and needs. If you’re a beginner, prioritize ease of use to get started quickly. If you’re an experienced user or technician, you may prefer software with advanced features, even if it’s more complex to use.

5.4 What is the typical cost of car performance monitoring software?

The cost of car performance monitoring software varies. Some software offers a free version with limited features, while others require a one-time purchase or subscription. Paid software typically ranges from $10 to $100, depending on the features and capabilities.

5.5 Are there any long-term costs associated with using the software?

Long-term costs may include:

• Subscription Fees: Some software requires a recurring subscription fee for continued access to features and updates.
• Hardware Costs: You may need to purchase a compatible OBD-II adapter if you don’t already have one.
• Maintenance Costs: Software updates and maintenance may require additional fees.
• Training Costs: For advanced software, you may need to invest in training to fully utilize its features.

6. Setting Up and Using Car Performance Monitoring Software

Setting up and using car performance monitoring software involves several steps, including installing the software, connecting to the vehicle, and interpreting the data.

6.1 How do I install the software on my device?

To install the software on your device:

1. Download the software from the app store or the developer’s website.
2. Follow the installation instructions provided by the software.
3. Grant the software necessary permissions, such as access to Bluetooth or Wi-Fi.

6.2 How do I connect the software to my vehicle?

To connect the software to your vehicle:

1. Plug the OBD-II adapter into the vehicle’s OBD-II port.
2. Turn on the vehicle’s ignition.
3. Pair the adapter with your device via Bluetooth or Wi-Fi, following the adapter’s instructions.
4. Open the software and select the adapter from the list of available devices.
5. Follow the software’s instructions to establish a connection.

6.3 How do I interpret the data displayed by the software?

To interpret the data displayed by the software:

• Understand the Gauges: Familiarize yourself with the gauges and their corresponding sensor readings.
• Analyze Charts: Look for trends and anomalies in the charts that may indicate potential issues.
• Read DTCs: If the software displays Diagnostic Trouble Codes, research their meaning and take appropriate action.
• Consult the Manual: Refer to the software’s manual for detailed explanations of the data and diagnostic information.
• Seek Professional Help: If you’re unsure about the data or how to interpret it, consult a qualified mechanic or technician.

6.4 What are some common issues that car performance monitoring software can help diagnose?

Common issues that car performance monitoring software can help diagnose include:

• Engine Problems: Misfires, poor performance, and overheating.
• Fuel System Issues: Low fuel efficiency, fuel leaks, and faulty fuel injectors.
• Emissions Problems: Failed emissions tests, faulty oxygen sensors, and catalytic converter issues.
• Transmission Problems: Slipping gears, rough shifting, and transmission overheating.
• Electrical Problems: Faulty sensors, wiring issues, and battery problems.

6.5 How often should I use car performance monitoring software?

How often you should use car performance monitoring software depends on your needs and goals. You may want to use it:

• Regularly: To monitor vehicle performance and identify potential issues before they become major problems.
• Before Long Trips: To ensure your vehicle is in good condition for the journey.
• After Repairs: To verify that the repairs were successful and the vehicle is performing as expected.
• When Experiencing Problems: To diagnose the cause of any issues you’re experiencing with your vehicle.

7. Advanced Techniques for Car Performance Monitoring

For advanced users and technicians, car performance monitoring software can be used for more sophisticated diagnostics and performance tuning.

7.1 What are custom PIDs and how can they be used?

Custom PIDs (Parameter IDs) are specific data points that are not included in the standard OBD-II set. They can be used to monitor specific sensors or data points that are unique to certain vehicle makes and models. To use custom PIDs:

1. Research the PIDs specific to your vehicle.
2. Enter the PIDs into the software.
3. Monitor the data and interpret the results.

7.2 How can data logging be used to analyze vehicle performance over time?

Data logging involves recording sensor data over time for later analysis. This can be used to:

• Identify Trends: Look for patterns and anomalies in the data that may indicate potential issues.
• Compare Performance: Compare data from different time periods to see how vehicle performance has changed.
• Optimize Settings: Adjust vehicle settings to optimize performance based on the data.

7.3 What is Mode 06 and how can it help diagnose issues?

Mode 06 refers to on-board diagnostic monitoring test results for specific components/systems. It can help diagnose issues by providing access to ECU self-monitoring test results. These tests can identify potential issues before they trigger a DTC, allowing for proactive maintenance and early repairs.

7.4 Can car performance monitoring software be used for performance tuning?

Yes, car performance monitoring software can be used for performance tuning. By monitoring sensor data in real-time, you can adjust vehicle settings to optimize performance. This may involve:

• Adjusting Fuel Delivery: Optimizing fuel delivery to improve power and fuel efficiency.
• Adjusting Timing: Adjusting ignition timing to improve engine performance.
• Monitoring Airflow: Optimizing airflow to ensure the engine is getting enough air.

However, performance tuning should be done with caution, as it can potentially damage the vehicle if not done correctly.

7.5 What are the limitations of using car performance monitoring software for advanced diagnostics?

The limitations of using car performance monitoring software for advanced diagnostics include:

• Accuracy: The accuracy of the data depends on the quality of the sensors and the software.
• Complexity: Advanced diagnostics can be complex and require a deep understanding of vehicle systems.
• Vehicle-Specific Issues: Some issues may be unique to certain vehicle makes and models and may not be easily diagnosed with generic software.
• Potential for Damage: Incorrectly interpreting the data or making improper adjustments can potentially damage the vehicle.

8. Car Performance Monitoring Software for Different Vehicle Types

Car performance monitoring software can be tailored for different vehicle types, including gasoline cars, diesel trucks, and electric vehicles.

8.1 How does car performance monitoring differ for gasoline cars vs. diesel trucks?

Car performance monitoring differs between gasoline cars and diesel trucks due to the different engine technologies and emissions control systems. For gasoline cars, the focus is typically on:

• Fuel Efficiency: Monitoring fuel consumption and optimizing driving habits.
• Emissions Control: Ensuring the catalytic converter and oxygen sensors are functioning properly.
• Engine Performance: Monitoring engine temperature, RPM, and airflow.

For diesel trucks, the focus is typically on:

• Torque and Power: Monitoring engine torque and power output.
• Exhaust Gas Temperature (EGT): Ensuring the engine is not overheating.
• Diesel Particulate Filter (DPF): Monitoring the DPF to ensure it’s not clogged.
• Exhaust Fluid (DEF): Monitoring the DEF level and ensuring the system is functioning properly.

8.2 What specific parameters are important to monitor in electric vehicles?

Specific parameters that are important to monitor in electric vehicles include:

• Battery Voltage: Monitoring the voltage of the battery pack to ensure it’s within the optimal range.
• Battery Temperature: Monitoring the temperature of the battery pack to prevent overheating.
• State of Charge (SOC): Monitoring the state of charge to ensure the battery is not overcharged or undercharged.
• Motor Temperature: Monitoring the temperature of the electric motor to prevent overheating.
• Energy Consumption: Monitoring energy consumption to optimize driving habits and improve range.

8.3 Can car performance monitoring software help improve fuel efficiency?

Yes, car performance monitoring software can help improve fuel efficiency by:

• Monitoring Fuel Consumption: Providing real-time data on fuel consumption.
• Identifying Inefficient Driving Habits: Identifying driving habits that waste fuel, such as hard acceleration and braking.
• Optimizing Vehicle Settings: Adjusting vehicle settings to improve fuel efficiency.
• Detecting Maintenance Issues: Identifying maintenance issues that can reduce fuel efficiency, such as a clogged air filter or faulty oxygen sensor.

8.4 What are the best software options for monitoring commercial vehicles?

The best software options for monitoring commercial vehicles include:

• Verizon Connect: Offers comprehensive fleet management solutions, including vehicle diagnostics and performance monitoring.
• Teletrac Navman: Provides real-time vehicle tracking, diagnostics, and performance monitoring.
• Geotab: Offers a wide range of fleet management solutions, including vehicle diagnostics, performance monitoring, and driver behavior monitoring.

8.5 How can car performance monitoring software help with fleet management?

Car performance monitoring software can help with fleet management by:

• Tracking Vehicle Location: Monitoring the location of vehicles in real-time.
• Monitoring Vehicle Performance: Tracking vehicle performance and identifying potential issues before they become major problems.
• Improving Driver Behavior: Monitoring driver behavior and identifying areas for improvement, such as speeding or hard braking.
• Reducing Fuel Costs: Monitoring fuel consumption and optimizing driving habits to reduce fuel costs.
• Improving Maintenance Scheduling: Scheduling maintenance based on vehicle performance and diagnostic data.

9. The Future of Car Performance Monitoring

The future of car performance monitoring is likely to involve more advanced technologies, integration with other systems, and increased automation.

9.1 What are the emerging trends in car performance monitoring technology?

Emerging trends include:

• Artificial Intelligence (AI): Using AI to analyze data and predict potential issues before they occur.
• Machine Learning (ML): Using machine learning to improve the accuracy of diagnostics and performance tuning.
• Cloud Connectivity: Storing data in the cloud for access from multiple devices and sharing with mechanics or other professionals.
• Integration with Advanced Driver-Assistance Systems (ADAS): Integrating car performance monitoring with ADAS to improve safety and performance.
• Over-the-Air (OTA) Updates: Updating software and firmware over the air, without the need for manual installation.

9.2 How will AI and machine learning impact car performance monitoring?

AI and machine learning will impact car performance monitoring by:

• Improving Accuracy: Enhancing the accuracy of diagnostics and performance tuning by analyzing vast amounts of data.
• Predicting Issues: Predicting potential issues before they occur, allowing for proactive maintenance and early repairs.
• Automating Tasks: Automating tasks such as data analysis and performance tuning.
• Personalizing Recommendations: Providing personalized recommendations based on driving habits and vehicle performance.

9.3 Will car performance monitoring become more integrated with other vehicle systems?

Yes, car performance monitoring is likely to become more integrated with other vehicle systems, such as:

• Navigation Systems: Integrating car performance monitoring with navigation systems to optimize routes and improve fuel efficiency.
• Entertainment Systems: Integrating car performance monitoring with entertainment systems to provide real-time performance data and diagnostic information.
• Safety Systems: Integrating car performance monitoring with safety systems to improve safety and prevent accidents.

9.4 How will over-the-air updates change the way car performance monitoring software is maintained?

Over-the-air (OTA) updates will change the way car performance monitoring software is maintained by:

• Simplifying Updates: Making it easier to update the software without the need for manual installation.
• Improving Security: Providing security updates to protect against vulnerabilities.
• Adding New Features: Adding new features and capabilities to the software.
• Reducing Downtime: Reducing downtime by allowing updates to be installed while the vehicle is not in use.

9.5 What is the potential for remote diagnostics and repairs using car performance monitoring data?

The potential for remote diagnostics and repairs using car performance monitoring data is significant. By monitoring vehicle performance data remotely, technicians can:

• Diagnose Issues Remotely: Diagnose issues without the need for the vehicle to be physically present.
• Provide Remote Assistance: Provide remote assistance to drivers experiencing problems.
• Schedule Repairs: Schedule repairs based on vehicle performance data.
• Reduce Downtime: Reduce downtime by diagnosing and repairing issues quickly and efficiently.

10. Training and Resources for Car Performance Monitoring

To fully leverage the benefits of car performance monitoring software, it’s essential to have access to proper training and resources.

10.1 What types of training are available for car performance monitoring?

Types of training available include:

• Online Courses: Online courses that cover the basics of car performance monitoring and diagnostics.
• Workshops: Hands-on workshops that provide practical training in using car performance monitoring software.
• Certifications: Certifications that demonstrate expertise in car performance monitoring and diagnostics.

10.2 Are there certifications available for car performance monitoring and diagnostics?

Yes, certifications are available, such as those offered by the National Institute for Automotive Service Excellence (ASE). ASE certifications demonstrate expertise in various areas of automotive technology, including diagnostics and performance monitoring.

10.3 What online resources can help me learn more about car performance monitoring?

Online resources include:

• CAR-REMOTE-REPAIR.EDU.VN: Provides training and resources for car performance monitoring and remote diagnostics.
• Online Forums: Online forums where users can ask questions and share information about car performance monitoring.
• YouTube Channels: YouTube channels that provide tutorials and demonstrations of car performance monitoring software.

10.4 How can I stay up-to-date with the latest developments in car performance monitoring technology?

To stay up-to-date:

• Follow Industry News: Follow industry news sources and blogs that cover car performance monitoring technology.
• Attend Conferences: Attend industry conferences and trade shows to learn about the latest developments.
• Join Online Communities: Join online communities and forums to connect with other professionals and enthusiasts.
• Take Training Courses: Take training courses and workshops to learn about new technologies and techniques.

10.5 Where can I find support and assistance if I encounter issues with my software?

You can find support and assistance by:

• Consulting the Software’s Manual: Consulting the software’s manual for troubleshooting tips and instructions.
• Contacting the Software Developer: Contacting the software developer for technical support.
• Visiting Online Forums: Visiting online forums to ask questions and get help from other users.
• Seeking Professional Help: Seeking professional help from a qualified mechanic or technician.

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