There are different modes of communication but for the military, theirs is even more modified, emphasized, and developed. If anything goes wrong with the communication systems, they are all risking their lives too much. They need backup in worse case scenarios but if they are not able to communicate exactly where they are and where the enemies are, this will indicate failure in operations, which will cause numerous deaths.
Communication in the field with other bases can be done using radio. A military antenna mast is not easy to manufacture. There are so many considerations like the cost of production including the raw materials and labor. On the other hand, the size, bandwidth, and capacity to deter radio signal interferences are notable considerations as well.
The RF antenna is very common but users tend to complain on how heavy and big they are. They are often inconvenient to bring in battle areas because the men still have to bring heavy loads of bullets, ammunitions, and firearms. Hence, manufacturers and designers are having a dilemma regarding how they can actually resize it into smaller versions, as requested.
However, experts have outlined their concerns regarding the mast sizes. They have indicated that the bigger and taller the device is, the higher is its tendency to capture frequencies no matter how low the signals are. Such equipment are even a few inches to a few feet taller than the actual size of an adult man.
Professional designers of military communication equipment have always emphasized, based on the physics of this innovation, that higher frequency capabilities are more advantageous for the heavier and bigger ones. They acknowledge the inconvenience in bringing them to battlefields, but they are also after the efficiency and functionality. If they shrink down the size, tendency is they may not be able to serve their functions best which is to communicate with their comrades.
Many are suggesting to use the cell phone innovation instead to use in war areas. This could be the answer of the plea of the soldiers to have a really small and handy antenna to use for connecting with their comrades. But experts say that this is not as easy as it seems. A less scientific explanation that will best describe the reason why these cannot be used is that it is susceptible to many kinds of interferences.
There is a need to modify first the structure of the cell phones to make its signals reach extensive distances. Phones normally need ground based signals to function more effectively. Most war zones have very limited or no access at all because of very few or even absence of infrastructures for phone networks.
With these information made known, it can be concluded safely that the RF communication systems could be the only mode of communication in the field. But studies are still ongoing on how to grant the requests of users about a less heavier and more handy antennas. This is the work of an applications engineer and a designer to make sure that the devices are then tested properly.
Experts have reiterated that the best device to use in military operations is RF. But this is not a conclusion. To them, this is only a variable in the continuous studies and research. A series of experiments and tests are to be done in order to ensure the efficiency of any new innovation discovery.
Communication in the field with other bases can be done using radio. A military antenna mast is not easy to manufacture. There are so many considerations like the cost of production including the raw materials and labor. On the other hand, the size, bandwidth, and capacity to deter radio signal interferences are notable considerations as well.
The RF antenna is very common but users tend to complain on how heavy and big they are. They are often inconvenient to bring in battle areas because the men still have to bring heavy loads of bullets, ammunitions, and firearms. Hence, manufacturers and designers are having a dilemma regarding how they can actually resize it into smaller versions, as requested.
However, experts have outlined their concerns regarding the mast sizes. They have indicated that the bigger and taller the device is, the higher is its tendency to capture frequencies no matter how low the signals are. Such equipment are even a few inches to a few feet taller than the actual size of an adult man.
Professional designers of military communication equipment have always emphasized, based on the physics of this innovation, that higher frequency capabilities are more advantageous for the heavier and bigger ones. They acknowledge the inconvenience in bringing them to battlefields, but they are also after the efficiency and functionality. If they shrink down the size, tendency is they may not be able to serve their functions best which is to communicate with their comrades.
Many are suggesting to use the cell phone innovation instead to use in war areas. This could be the answer of the plea of the soldiers to have a really small and handy antenna to use for connecting with their comrades. But experts say that this is not as easy as it seems. A less scientific explanation that will best describe the reason why these cannot be used is that it is susceptible to many kinds of interferences.
There is a need to modify first the structure of the cell phones to make its signals reach extensive distances. Phones normally need ground based signals to function more effectively. Most war zones have very limited or no access at all because of very few or even absence of infrastructures for phone networks.
With these information made known, it can be concluded safely that the RF communication systems could be the only mode of communication in the field. But studies are still ongoing on how to grant the requests of users about a less heavier and more handy antennas. This is the work of an applications engineer and a designer to make sure that the devices are then tested properly.
Experts have reiterated that the best device to use in military operations is RF. But this is not a conclusion. To them, this is only a variable in the continuous studies and research. A series of experiments and tests are to be done in order to ensure the efficiency of any new innovation discovery.
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