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Mesh Analysis01:20

Mesh Analysis

1.5K
Mesh analysis is a valuable method for simplifying circuit analysis using mesh currents as key circuit variables. Unlike nodal analysis, which focuses on determining unknown voltages, mesh analysis applies Kirchhoff's voltage law (KVL) to find unknown currents within a circuit. This method is particularly convenient in reducing the number of simultaneous equations that need to be solved.
A fundamental concept in mesh analysis is the definition of meshes and mesh currents. A mesh is a closed...
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What is Energy?04:10

What is Energy?

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The universe is composed of matter in different forms, and all forms of matter contain energy.  The different forms of energy on Earth originate from the Sun — the ultimate energy source. Plants capture light energy from the Sun, and, via the process of photosynthesis, convert it into chemical energy. This stored energy from plants can be harnessed in many ways. For example, eating plant products as food provides energy for our body to function, and burning wood or coal (fossilized...
58.8K
Free Energy01:21

Free Energy

52.0K
Free energy—abbreviated as G for the scientist Gibbs who discovered it—is a measurement of useful energy that can be extracted from a reaction to do work. It is the energy in a chemical reaction that is available after entropy is accounted for. Reactions that take in energy are considered endergonic and reactions that release energy are exergonic. Plants carry out endergonic reactions by taking in sunlight and carbon dioxide to produce glucose and oxygen. Animals, in turn, break...
52.0K
Mesh Analysis with Current Sources01:10

Mesh Analysis with Current Sources

2.0K
Mesh analysis becomes simpler when analyzing circuits with current sources, whether independent or dependent. The presence of current sources reduces the number of equations required for analysis. Two cases illustrate this:
Current Source in One Mesh: The analysis process is straightforward when a current source is found in only one mesh within the circuit. Mesh currents are assigned as usual, with the mesh containing the current source excluded from the analysis. Kirchhoff's voltage law...
2.0K
Energy Basics02:27

Energy Basics

47.5K
Chemical reactions, such as those that occur when you light a match, involve changes in energy as well as matter.
47.5K
Mesh Analysis for AC Circuits01:12

Mesh Analysis for AC Circuits

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In the domain of radio communication, the significance of impedance matching must be considered. It is crucial to ensure the efficient transmission of signals between radio transmitters and receivers. Achieving this balance involves using impedance-matching circuits, with one fundamental configuration comprising a resistor, capacitor, and inductor.
The process of harmonizing these impedances begins with a clear understanding of the input and output signals. Once these signals are known, the...
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Updated: Jan 27, 2026

Method to Produce Durable Pellets at Lower Energy Consumption Using High Moisture Corn Stover and a Corn Starch Binder in a Flat Die Pellet Mill
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Bluetooth Mesh Energy Consumption: A Model.

Seyed Mahdi Darroudi1, Raül Caldera-Sànchez2, Carles Gomez3

  • 1Department of Network Engineering, Universitat Politècnica de Catalunya/Fundació i2Cat, C/Esteve Terradas, 7, 08860 Castelldefels, Spain. sm.darroudi@entel.upc.edu.

Sensors (Basel, Switzerland)
|March 16, 2019
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Summary

Bluetooth Mesh technology enables long-lasting Internet of Things (IoT) devices. Our model shows battery-powered sensor nodes can operate for over 15 months, optimizing energy efficiency.

Keywords:
BLEBluetooth Low EnergyBluetooth MeshInternet of ThingsIoTenergyevaluationmodelingperformance

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Area of Science:

  • Electrical Engineering
  • Computer Science
  • Wireless Communication

Background:

  • Bluetooth Mesh standard is a significant advancement for Bluetooth Low Energy (BLE).
  • Internet of Things (IoT) applications require robust performance evaluation of new technologies.
  • Energy efficiency is a key, yet understudied, aspect of Bluetooth Mesh for constrained devices.

Purpose of the Study:

  • To model and analyze the energy consumption of battery-operated Bluetooth Mesh sensor nodes.
  • To determine the lifetime and energy cost per delivered bit for these devices.
  • To quantify the impact of key Bluetooth Mesh parameters on device longevity.

Main Methods:

  • Development of an energy consumption model based on real hardware measurements.
  • Analysis of current draw, device lifetime, and energy cost per bit.
  • Evaluation of various Bluetooth Mesh operational parameters.

Main Results:

  • A Bluetooth Mesh sensor node with a 235 mAh battery can achieve a lifetime of up to 15.6 months when sending data every 10 seconds.
  • The asymptotic lifetime for such a device is calculated to be 21.4 months.
  • Quantified impact of critical Bluetooth Mesh parameters on energy performance.

Conclusions:

  • The study provides a validated model for predicting the lifetime of Bluetooth Mesh sensor nodes.
  • Results demonstrate the suitability of Bluetooth Mesh for energy-constrained IoT applications.
  • Further research can leverage these findings to optimize Bluetooth Mesh network design for extended battery life.