the system has parts that sense the amount of output
Feedback control is the process by which a system's output is monitored and used to adjust the system's input. This mechanism allows the body to regulate internal conditions within a narrow range, maintaining homeostasis. Negative feedback is a common type of control system where the system responds in a way that reduces the discrepancy between the desired and actual output.
Self-regulating control mechanisms usually operate by a process called negative feedback. Negative feedback helps to maintain stability within a system by detecting changes in a controlled variable and activating mechanisms to counteract those changes. This helps to keep the system within a desired range or setpoint.
Negative feedback control mechanisms reduce variations away from a desired physiological state. This is achieved by sensing changes in the system, generating a response that counteracts the change, and bringing the system back into balance.
In negative feedback loops, a sensor is a component that detects a change in a system's internal or external environment. It then sends this information to the control center, which triggers a response to counteract the change and maintain homeostasis. The sensor plays a crucial role in providing feedback that helps regulate and stabilize the system.
This is known as a feedback loop. When a system's output influences its input in a way that reduces the output, it can lead to the system shutting down or destabilizing. This feedback loop can have either positive (amplifying) or negative (stabilizing) effects on the system.
A: It is any system where there is negative feedback to control its behavior
Feedback control is the process by which a system's output is monitored and used to adjust the system's input. This mechanism allows the body to regulate internal conditions within a narrow range, maintaining homeostasis. Negative feedback is a common type of control system where the system responds in a way that reduces the discrepancy between the desired and actual output.
Negative feedback is necessary in closed-loop control systems to ensure the system remains stable and responsive to changes. It helps to detect and correct errors, minimizing deviations from the desired output. By providing a means to compare the actual output to the desired reference input, negative feedback allows for adjustments to be made to keep the system operating within desired parameters.
Self-regulating control mechanisms usually operate by a process called negative feedback. Negative feedback helps to maintain stability within a system by detecting changes in a controlled variable and activating mechanisms to counteract those changes. This helps to keep the system within a desired range or setpoint.
Negative feedback is a feedback where it is used in negative side in a closed loop system.Such as a inverting side feedback in op-amp.
some feedback r insulting or inappropriate. it depend on how u sort the question. Question is on feed back system in control system. In a control system generally there is a setpoint to be achieved. Control system aims to achieve the setpoint. However due to inherent reasons, the actual keeps hovering around the setpoint. A good control system keeps the setpoint very close to the setpoint. Control system must know the actual value to make adjustment to achieve the setpoint. Actual value is fed back to the control system. This feed back is referred as negative or positive feedback. The feed back tells the control system that the actual value is lower or higher compared to set point. This is known as negative or positive feedback.
1.feedback in control system improves the speed of response2.using feedback in control system we can reduce the sensitivity of the system to parameter variation
A: A system ideally should have infinite gain but if that is so then it will saturate to one state or the other Feedback [negative] insure that will not happen the feedback will control the saturation making it stable.
Endocrince system
Negative feedback in a homeostatic system helps to maintain stability by counteracting changes in the system. It allows the system to sense deviations from the set point and activate mechanisms to bring the system back to optimal functioning. This process helps prevent large fluctuations in the internal environment and maintains a relatively constant internal state.
Negative feedback control mechanisms reduce variations away from a desired physiological state. This is achieved by sensing changes in the system, generating a response that counteracts the change, and bringing the system back into balance.
negative feedback control, a cold feeling and shivering