Draw a Moore machine for a 1965 Ford Thunderbird, a car that featured sequentially flashing tail lights. Define the inputs/outputs of the circuit and draw a state diagram. (There should be 12 states). As soon as possible!

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Draw a Moore machine for a 1965 Ford Thunderbird, a car that featured sequentially flashing tail lights. Define the inputs/outputs of the circuit and draw a state diagram. (There should be 12 states).

As soon as possible!

| Right:0
[left:
L brake:
L HazaRD!
| Run Ligt: We Un Wu Wu
Chighest
Reset
I
Run Light
[
Break and Clefe xor Right)
I
Break
Hazard or cleft and Right)
|
Loft Xor Right
Priority)
(lamest
Priority)
Cleft AND right)
Transcribed Image Text:| Right:0 [left: L brake: L HazaRD! | Run Ligt: We Un Wu Wu Chighest Reset I Run Light [ Break and Clefe xor Right) I Break Hazard or cleft and Right) | Loft Xor Right Priority) (lamest Priority) Cleft AND right)
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Draw a Moore machine for a 1965 Ford Thunderbird, a car that featured sequentially flashing tail lights. (There should be 12 states).

As soon as possible!

**Vehicle Light Control System**

This diagram illustrates the functional hierarchy and behavior of a vehicle's light control system. Each light's operation is visually represented and systematically explained with different conditions, indicating how and when the lights are activated based on various input signals.

**Light Signal Representation:**

1. **Right Turn Signal (L Right):**
   - Depicted as a series of alternating boxes indicating the blinking pattern.
   - Activation indicated by a filled box.

2. **Left Turn Signal (L Left):**
   - Similarly shown as a series of alternating boxes for the blinking pattern.
   - Activation indicated by a filled box.
   
3. **Brake Light (L Brake):**
   - Shown as a series of consecutive filled boxes.
   
4. **Hazard Light (L HazARD):**
   - Indicated by the sets of filled boxes, merged with conditions that involve both left and right lights (caption: C Left AND Right).
   
5. **Running Light (L Run Lite):**
   - Shaded boxes indicating a continuous activated state when the running lights are on.

**Functional Priority Tree Diagram:**

This hierarchical flowchart depicts the operational priority of different lights:

- **Reset:**
  - Initial state.
  
- **Run Light:**
  - First priority, enabling basic running lights.

- **Brake and (Left XOR Right):**
  - In the presence of a brake signal along with either a left or right signal.

- **Brake:**
  - Showing the condition when only the brake light is activated.

- **Hazard or (Left AND Right):**
  - Indicates the hazard light activation or both turn signals simultaneously (hazard condition).

- **Left XOR Right:**
  - The condition for activating either the left or right turn signal as separate entities.

Each of these states and conditions is connected via logical operations (AND, OR, XOR), representing the decision-making procedure of the vehicle's light management system where the hierarchy ensures that more critical signals like braking override less critical signals such as turn signals.
Transcribed Image Text:**Vehicle Light Control System** This diagram illustrates the functional hierarchy and behavior of a vehicle's light control system. Each light's operation is visually represented and systematically explained with different conditions, indicating how and when the lights are activated based on various input signals. **Light Signal Representation:** 1. **Right Turn Signal (L Right):** - Depicted as a series of alternating boxes indicating the blinking pattern. - Activation indicated by a filled box. 2. **Left Turn Signal (L Left):** - Similarly shown as a series of alternating boxes for the blinking pattern. - Activation indicated by a filled box. 3. **Brake Light (L Brake):** - Shown as a series of consecutive filled boxes. 4. **Hazard Light (L HazARD):** - Indicated by the sets of filled boxes, merged with conditions that involve both left and right lights (caption: C Left AND Right). 5. **Running Light (L Run Lite):** - Shaded boxes indicating a continuous activated state when the running lights are on. **Functional Priority Tree Diagram:** This hierarchical flowchart depicts the operational priority of different lights: - **Reset:** - Initial state. - **Run Light:** - First priority, enabling basic running lights. - **Brake and (Left XOR Right):** - In the presence of a brake signal along with either a left or right signal. - **Brake:** - Showing the condition when only the brake light is activated. - **Hazard or (Left AND Right):** - Indicates the hazard light activation or both turn signals simultaneously (hazard condition). - **Left XOR Right:** - The condition for activating either the left or right turn signal as separate entities. Each of these states and conditions is connected via logical operations (AND, OR, XOR), representing the decision-making procedure of the vehicle's light management system where the hierarchy ensures that more critical signals like braking override less critical signals such as turn signals.
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