ENERGY EFFICIENCY UTILIZATION IN BASE STATION OPERATIONS OPTIMIZATION. THE TELECOMMUNICATIONS CONUNDRUM

Written by Thomas Mutsimba, an author, an Enterprise Risk Management Professional. Thomas is an author endowed with advanced actuarial analysis and advanced forensic analysis

Energy efficiency is coming in the utilization of energy at effective rates per input versus output comparison indexing motions. Energy, flowing at conversion platforms and or modes is critical to an industrial blossoming as it drives productivity and even revenue generation. Energy efficiency utilized at compartmental level of production lines is also utilized at exterior compartments and or levels outside production lines. Base stations of telecommunications entities also use different sources of energy to power base stations.

Base stations are platforms reverberating signals towered at those locations through channels set up to connect with various locations. They do not operate on their own. Why is that so? It is so because they beam signals to and from various locations, but they need an input of energy. Energy is current deep form through various devices such as diesel or petroleum powered generators or generic electromagnetic currents produced from other power generating units. In this article we dwell on the use of energy employed by these base stations to eccentrically power these stations in the ambit of telecommunications.

Energy efficiency in base station operations is the dis-aggregation of energy fundamentals to produce power meant to enable electromagnetic signal deverberation, digitally supported tenets casting energy to populate at minimized usage for calibrated magnified output per input of the aforesaid injected energy. Efficiency utilization is meant to make use of a quotient that saves power for operations calculated technique. Utilization of energy in base stations is also defined at energy levels proportionalisation. But how does it happen? It happens at a very detailed level of operations scheduling of base station routing and configuration management techniques. Base stations through configuration management are marred by dashboard reporting of calculated performance tenets. It is postured at the knowledge base of the configuration engineer who must appropriate the techniques of energy efficiency and how the telecommunications entity appropriates energy itself and associated utilization fosters the base station efficiency utilization.

It is a technical exercise and sometimes a mathematically astuteness-postured dynamic that dis-aggregate the aggregation of energy efficiency utilization for the purpose of elucidating to the telecommunications fraternity on the optimization components that when aggregated cause tandem operation right from continuous operations research and deployment to efficiency utilization of the base stations operations optimization.

Operations Optimization, Base station Dynamics   

What is operations optimization at base stations? Since base stations operate on the running scales of the engineer’s quest to ensure all calibrated instrumentation that are employed in posturing the reverberating technicalities of signals being beamed in scintillating motions to the field, it becomes an Ethernet based terse aid recorded ascertained methodology.

The telecommunications engineers are regularly needed to record scheduling operations right from resource requirements in terms of power/energy needs required to run the base stations. Operations record cards detailing all specifics broken down to calibration scheduled times of energy proportions needed and how the proportions will be apportioned cyclically as telecommunications engineers understand the surrounding field performances and the blend of frequencies that will be competing with concerned firm’s frequencies.

How does it help your entity? It helps your entity to plan according to the strengthening methods needed to ensure emerging needs are harnessed and efficiently utilized to optimize the base station operations. We are going to focus on considerations from base station operations management that accost the operations universe in order to optimize harnessing utility optimization entrenched in the efficientization quest. It is not an easy conundrum to break especially when looking at energy deficits. Nations are battling with crippling energy deficits that posture themselves in economies at unknown levels. Base station operations optimization operates on the following four tenets:

[1] Energy power needs, the injection efficient dynamics;

[2] Calculative Index of power consuming input components;

[3] Power scintillations;

[4] Energy efficient frontiers, usage efficiency and performance efficiency energy frontiers;

The modelling approach of the four co-efficients stated above are:

[1.1] Energy power needs, the injection efficient dynamics

Any base station in telecommunications has energy power needs. Efficient dynamics of energy power needs come in different formats. In this section we focus on injection efficient dynamics, Injection efficient dynamics are how telecommunications deploys energy to base stations. Measured and inverterised base stations must be digitally topographically postured and algorithmically managed.  What do we mean by this? What we mean is that each base station must be managed through a calculated motion of censored deverberation and reverberation of energy power needs.  Consumption of energy matrix to calibrated linked instrumentation that consumes the energy will give monitoring and evaluation. Algorithms are used to develop a component and or input like fundamentalist approach where all inventory consuming energy are linked energy efficiency-consumption calibrated instruments that give an indication as to the injection efficiency dynamics. Holistically and or at least at a high level, injection efficient dynamics can be measured as follows:

From the above illustration there are three channels through which energy is injected into the component architecture of the base station [depending on your modelling of injection efficient dynamics].

The energy proportion consumption index is a factor calculated by the quantified value of energy injected as a proportion of calibrated instrument indicator of base station component consumption of the energy injected into the base station. Abnormal losses or losses are computed using indexing measurement bases based on national or regional calibration of measurement bases used to measure losses indexes.

[1.2] Calculation of Index of power consuming input fundamentals

What is the calculation of index of power input consuming  input fundamentals? This refers to the methodology used to identify power consuming input fundamentals. It wouldn’t hurt to explore here. In fact, Actuarial skills or analyst skills are a crucial blend as they will come in handy to help develop and sense indexing. What is Indexing? Indexing is the summation of a series of data relating to identifying input fundamentals. The data in this case relate to the base station components. For instance, base station input components that consume energy an include:

• Tower cardiotic structures such as antenna receptors ;
• Conversion of receiving instrumentation;
• Signal conversion, amplifying, reverberating and deverberating instrumentation;
• Energy transformers;
• Energy power invertation instrumentation;
• Earthing or power surges harnessers or decelerators;

The list above are examples but they are many components that depend on brands of manufacturers of base station equipment and electronic standardization. Therefore, the indexing that may be used may be proportional indexing or performance indexing . It also depends on actuarially postured through electronic telecommunications engineering advisory status on the base station optimization configuration management.

[1.3] Power Scintillations

What are power scintillations? Are power scintillations energy scintillations? I would say no; power scintillations are not energy scintillations. Why is that so? You will see why.

Power scintillations are traction centered engineering effective momentum of telecommunications instruments. When energy is injected into a base station equipment and tooling system, the energy through electromagnetic current effective nature voltaic injected, instruments will be triggered to function. Power measured at energic effect that causes the traction in instrumentation motion control allows instruments to be driven towards functional abilities. Therefore, power scintillations are therefore the traction control mechanism that is energized by injection energy. Going deeper into the esthetics of power scintillations, they affect the energy optimization balancing dynamics. Energy optimization optimization  balancing dynamics are interior and exterior based. What does this mean? This means that there are factors that affect the energy-frontier dynamics .

These factors are design specifications and efficiency calculative motions of instrumentation just to name a few. The instrumentation that is being talked about now is base station instrumentation

[1.4] Energy Efficient frontier, usage efficiency and performance efficiency and how all of these are interrelated

Energy Efficient frontiers feature in many industrial instrumentation and control efficiency systems. What are Energy efficiency frontiers in light of base station efficiency optimization tooling?

Energy efficient frontiers are stages of decomposition of active energy, not passive energy. What is the former and what is the latter? The former is energy that has not been decomposed while the latter is energy that has been decomposed. Decomposed energy is energy that has been distributed to various parts of an ecosystem. The ecosystem of a base station is the base station itself and its inner components of instrumentation and tooling. Remote algorithmic command center of the base station also consume energy that we have postured to active and passive energy. Passive energy also features in energy lost.

Usage Efficiency    

Usage Efficiency is postured in standard energy consumed equilibrium analysis. This equilibrium analysis is reflected in the energy consumption index  of  a base station optimization. How do you measure the energy consumption index? The energy consumption index is measured at energy input intricacy. The input intricacy of base station energy consumption index is the balancing portion of energy highs and lows due to field frequencies vibrations or fluctuations. Due to instability postured by competing field frequencies the energy consumption index may be affected.

The incoming frequencies postured by other field base stations competitors affect energy usage efficiency of the base station. This one is postured in the energy consumption index which is a measure of energy usage efficiency.

The energy consumption index is calculated using statistically notated data serialized indexing of calibrated energy units of bases measured. Indexing measured proportional and disproportional acceleration and deceleration of units of bases measured against normal industrial standardization instrumentation calibration measurement gives input to the state of usage efficiency.

Performance Efficiency

We have run through the usage efficiency. Performance efficiency is another tenet of base station efficiency frontier. What is performance efficiency? Performance efficiency is a measure of base station energy stability per compartmental deverberation of signal frequency. This is designed through programming of the flow of stability over a certain period of time. We will cover more in the management of performance of energy of a base station in highly industrialized nations and or economies . Performance efficiency is difficult to measure because of several heterogeneous and homogeneous factors in the energy efficiency dynamics universe. But it goes as far as the strategic objectives that would have been set by a telecommunications firm.

Generally formulated Energy efficiency utilization and optimization at a base station

What is this generally formulated energy efficiency utilization and optimization? This is the officiated frontier of efficiency at a base station determined through compartmental methodology set to deploy new technology to the operation optimization of base station. Open efficient frontier dynamics are susceptible to agile development of new energy sources. For instance, an entity can use nuclear powered base stations. These nuclear-powered base stations come with different energy efficiency utilizations and operations specifications or rather nuclear power engineering at the base station may totally be different as opposed to other sources like diesel or petroleum, or solar powered plants.

Energy methodology deployment to base stations must not just be treated as a simple one. There are efficiency frontiers that even affect the operation optimization.

This article has touched on the varieties and a cocktail of issues regarding base station energy efficiency utilization. Energy efficiency frontier computative optimization uses at those base stations may be extrapolated to new generation technology. This is an emerging or meteorite ball of higher dimensions revelations still to approach through innovation.

Disclaimer: All views expressed in this article are my own and do not represent the opinion of an entity whatsoever, with which I have been, am now, or will be affiliated with. ©