The missile can be integrated into different platforms, including wheeled or crawler armored vehicles, grounded / towed ground launchers, stationary ground launchers, unmanned aircraft, lightning aircraft, border patrol aircraft, utility helicopters, Corvettes and coast guards / Patrolmen Can be fired on armored / unshielded light vehicles, infantry vehicles and light bunkers.
The missiles differ from the rockets by virtue of a guiding system that guides them towards a pre-selected target. The rockets turned out to be useful but often imprecise weapons when fired from aircraft during World War II. This inaccuracy, which often results in the need to fire many rockets to hit a single target, led to the search for a means to guide the rocket towards its target. The simultaneous explosion of radio wave technology (such as radar and radio detection devices) provided the first solution to this problem. Several warring nations, including the United States, Germany and Britain, combined existing rocket technology with new radar or radar-based guidance systems to create the world's first guided missiles. Although these missiles were not deployed in numbers large enough to radically divert the course of World War II, the successes recorded with them indicated techniques that would change the course of future wars. Thus was born the era of high technology war, an era that would quickly demonstrate its problems, as well as its promise.
Problems centered on the unreliability of new radio wave technologies. The missiles were not able to sharpen on smaller targets than factories, bridges or warships. The circuits were often voluble and would not work at all under adverse weather conditions. Another flaw emerged as interference technologies flourished in response to radar success. Enemy interference stations found it increasingly easy to intercept radio or radar transmissions from launching aircraft, thus allowing these stations to send conflicting signals on the same frequency, blocking or "confusing" the missile. Guided missile battlefield applications, especially those that anticipated attacks against smaller targets, required a more reliable guiding method that was less vulnerable to jamming. Fortunately, this method was made available as a result of an independent research effort on the effects of light amplification.