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Maximum Calls Per Hour Per Cell Equation:
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The Maximum Calls Per Hour Per Cell equation calculates the maximum number of simultaneous phone calls that can be supported by a single cell within a wireless network during a one-hour time frame. It is derived from the relationship between offered load and average calling time.
The calculator uses the Maximum Calls Per Hour Per Cell equation:
Where:
Explanation: The equation converts the offered load from Erlangs to calls per hour by multiplying by 60 (minutes to seconds conversion factor) and dividing by the average calling time in seconds.
Details: Calculating maximum calls per hour per cell is crucial for network capacity planning, ensuring quality of service, and optimizing wireless network performance. It helps network engineers determine the capacity requirements for cellular infrastructure.
Tips: Enter the offered load in Erlangs and average calling time in seconds. Both values must be positive numbers greater than zero for accurate calculation.
Q1: What is Offered Load in wireless networks?
A: Offered load refers to the amount of data or traffic that is generated by users or devices within a wireless network, typically measured in Erlangs.
Q2: How is Average Calling Time measured?
A: Average calling time in wireless communication is measured in seconds and represents the average duration of phone calls within the network.
Q3: Why multiply by 60 in the formula?
A: The multiplication by 60 converts the time unit from minutes to seconds, ensuring consistency with the average calling time measurement in seconds.
Q4: What factors can affect Maximum Calls Per Hour Per Cell?
A: Network capacity, signal strength, interference, number of available channels, and technology used can all affect the maximum number of calls per cell.
Q5: How accurate is this calculation for real-world networks?
A: While this provides a theoretical maximum, real-world performance may vary due to factors like handovers, signal quality, and network congestion.