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Estimated time of arrival (ETA) in logistics  - OneTraker

Estimated time of arrival (ETA) in logistics

In logistics, Estimated Time of Arrival (ETA) refers to the projected time when a shipment or delivery is expected to arrive at its destination. ETA is crucial for effective supply chain management, customer satisfaction, and operational efficiency. 

Related Terminologies

Estimated Time of Departure (ETD) : The projected time when a shipment or vehicle is expected to leave its origin.

Estimated time of completion (ETC) : ETC refers to the closing time of certain tasks, e.g., loading and unloading. 

Actual arrival time (AAT) : ETA and ETD are estimates; AAT is the actual time the parcel arrives as the destination.

Time Window : The range of time during which a delivery or pickup is expected to occur.

Delivery Window : A specific period during which a delivery is scheduled to arrive. 

Transit Time : The total time taken for a shipment to travel from the origin to the destination, excluding delays. 

Lead Time : The time required to complete a process or fulfill an order from start to finish.

Time to Delivery : The duration remaining until a shipment reaches its destination. 

Delay : An unforeseen hindrance that causes a shipment to arrive later than the initially estimated time. 

ETA Accuracy : The degree to which the estimated time of arrival matches the actual arrival time. 

Expected Delivery Date (EDD) : The anticipated date on which a shipment is expected to be delivered. 

Time of Arrival (TA) : The actual time when a shipment arrives at its destination.

How to calculate ETA ​

ETA (Estimated Time of Arrival) is crucial as it allows multiple stakeholders to effectively prepare for the incoming shipment. Calculating the Estimated Time of Arrival (ETA) in logistics involves several steps and factors to ensure accuracy.  

Key Factors
  • Departure Location : Where the shipment is starting from. 
  • Destination Location : Where the shipment is going. 
  • Distance : The total distance between the departure and destination points. 
  • Warehouse and hub : Processing time in warehouse / hub. This including unpacking and packing for proper destination alignment. Also unloading and loading time (Mention in points below). 
  • Mode of Transportation : Different modes (e.g., truck, ship, air) have varying speeds and characteristics. 
  • Loading and Unloading Time : Time required for loading at the origin and unloading at the destination. 
  • Breaks and Stops : Scheduled or unscheduled stops that could affect the overall time. 
  • Customs and Inspections : Time required for customs clearance and inspections if crossing borders. 
  • Current Traffic Conditions : Real-time data on traffic, road conditions, and any potential delays. 
  • Weather Conditions : Weather forecasts that could impact travel time. 
Basic formula to calculate Travel Time:
  • Formula :   Travel Time = Distance / Average Speed
  • Average Speed : Consider the typical speed of the transportation mode and adjust for current conditions.

Some scenario-based examples

Example 1 : Simple Road Transport
Scenario :
  • Distance : 300 miles
  • Average Speed : 60 mph
  • Loading Time : 1 hour
  • Unloading Time : 1 hour
  • Buffer Time : 2 hours
Steps to Calculate ETA:
  1. Calculate Travel Time:Travel Time = Distance / Average Speed = 300 miles / 60 mph = 5 hours
  2. Add Loading and Unloading Time:Total Time = 5 hours + 1 hour (loading) + 1 hour (unloading) = 7 hours
  3. Incorporate Buffer Time:ETA = 7 hours + 2 hours (buffer) = 9 hours
Result:
The ETA for the delivery is 9 hours.
Example 2 : Air Cargo Transport
Scenario :
  • Distance: 1,200 miles
  • Average Speed: 500 mph (cruising speed of a commercial jet)
  • Loading Time: 30 minutes
  • Unloading Time: 30 minutes
  • Buffer Time: 1 hour
Steps to Calculate ETA:
  1. Calculate Flight Time: Flight Time = Distance / Average Speed = 1,200 miles / 500 mph = 2.4 hours (or 2 hours and 24 minutes)
  2. Add Loading and Unloading Time: Total Time = 2.4 hours + 0.5 hours (loading) + 0.5 hours (unloading) = 3.4 hours
  3. Incorporate Buffer Time: ETA = 3.4 hours + 1 hour (buffer) = 4.4 hours (or 4 hours and 24 minutes)
Result:
The ETA for the air cargo delivery is 4 hours and 24 minutes.
Example 3 : Complex Scenario with Real-Time Adjustments
Scenario :
  • Distance: 150 miles
  • Average Speed: 55 mph
  • Loading Time: 1 hour
  • Unloading Time: 1 hour
  • Current Traffic Conditions: 10% increase in travel time due to congestion
  • Weather Conditions: Additional 30 minutes delay
Steps to Calculate ETA:
  1. Calculate Initial Travel Time: Travel Time = Distance / Average Speed = 150 miles / 55 mph ≈ 2.73 hours
  2. Add Loading and Unloading Time: Total Time Before Adjustments = 2.73 hours + 1 hour (loading) + 1 hour (unloading) = 4.73 hours
  3. Adjust for Traffic Conditions: Traffic Adjustment = 4.73 hours × 0.10 = 0.473 hours (approximately 28.4 minutes)
    Adjusted Time = 4.73 hours + 0.473 hours = 5.203 hours
  4. Add Weather Delay: Total Time = 5.203 hours + 0.5 hours (weather) = 5.703 hours
Result:
The ETA for the delivery, considering real-time adjustments, is approximately 5 hours and 42 minutes.

Importance of ETA in Logistics:

  • Provides customers with some tentative delivery times, helping manage their expectations and improve satisfaction. 
  • Helps logistics companies plan and allocate resources more effectively, reducing delays and optimizing routes. 
  • Accurate ETAs help in better inventory management by aligning stock levels with expected arrivals. 
  • Facilitates communication between shippers, carriers, and recipients, allowing for proactive management of any issues that arise. 

Challenges in Managing ETA :

  • Unexpected delays due to accidents, weather changes, or unforeseen circumstances can affect the accuracy of ETA.
  • Real-time adjustments need to be made as conditions change, which requires sophisticated technology and constant monitoring.  
  • Integrating ETA with other logistics and supply chain systems can be complex but is essential for cohesive operations. 

Technologies Enhancing ETA Accuracy :

  • Predictive models and algorithms can analyze historical data and current conditions to provide more accurate ETAs. 
  • Internet of Things (IoT) devices monitor and report real-time conditions, such as vehicle location and environmental factors. 
  • Artificial intelligence can automate and refine ETA calculations by continuously learning from new data. 

To accurately calculate ETA, consider all relevant factors including distance, average speed, loading/unloading times, and real-time conditions. Adjustments based on current data ensure that the ETA reflects the most accurate expected arrival time.