Yes, our shared hosting plan includes over 70 applications that can be installed with just a few clicks. Thanks to the quick and easy installation process, you can enjoy this wide variety of apps instantly and without any hassle. The IONOS web hosting plan provides 100% compatibility with apps such as the following, plus a whole lot more. The Wiki hosting app MediaWiki is one of the many applications included in the shared hosting plan. The software is open source, written in PHP, and allows users to create and edit webpages in the classic Wiki style - just like Wikipedia or Wiktionary. Wiki hosting is one of the most popular open source software options and works perfectly with IONOS web hosting. Another app installed with just a few clicks via the IONOS shared hosting package, is the popular phpBB open source forum or bulletin board system. Users can enjoy advanced administrative control panel services and extensive moderation tools. This popular bug tracking system keeps users up to date on any project or software issues with email notifications. Also available is the Form Tools app, which is ideal for anyone using forms on their website. The PHP/MySQL script allows users to manage all forms and their data in one centralized place. Zen Cart is an online store management solution for e-commerce companies. The open source shopping cart add-on transforms any blog into an e-commerce platform.
What follows the opening refrain is usually a set of spoken numbers or letters, often four or five at a time, which are repeated again and again, before moving on to a new set. Depending on the station's origin, the code may be spoken in English, Korean, Czech, Spanish or other languages. Many stations have received colorful nicknames that reflect some defining characteristic of the station. For example, one is called Swedish Rhapsody because it begins with a fragment of that song. Other well-known stations include The Buzzer, Cherry Ripe, The Spanish Lady, Atencion and Yosemite Sam. Sometimes broadcasts come in loud and clear. Sometimes atmospheric conditions degrade the signals. And sometimes, intentional jamming on the part of opposition countries creates enough interference on the same frequency that it renders the transmission difficult or impossible to understand. The coded structure of the messages almost certainly indicates that these messages are secret and intended for spies avoiding detection.
The question, then, is how do spies understand the latent messages when no one else can? The manner in which these bizarre broadcasts are encoded is the linchpin of an unbreakable encryption system. Keep reading to see how these codes work. What makes them perhaps even more compelling is that they're still in use, decades after the world wars that sparked their rise. They've survived the communications revolutions because unlike so much digitized code, these transmissions are unbreakable. You may scoff at the idea. If codes generated by supercomputers can be hacked, what's so hard about deciphering a few numbers? It is hard. Actually, it's nearly impossible. Done properly, no one will understand the message but the intended recipient. In this system, both the sender and receiver have a single copy of paper (or other media) filled with random digits or numbers. Using a key that corresponds to the pad, the recipient can figure out what letters the incoming characters or digits stand for.
Crucially, each key is used only once, thus the name one-time pad. Both the sender and receiver immediately destroy the key at the end of the broadcast, meaning that even if someone else intercepts the series of numbers, they'll have no way to decode the hidden message. This also means that there's no relationship between past or future messages, so there's no pattern for cryptographers to use in breaking the code. Each new key and message are randomly generated, and done properly, the system is the only way to perfectly encrypt a transmission. To fool the ingenuity of the best cryptographers, however, the key and message must be truly random. And as it turns out, creating really random sequence is challenging, even for computers. Sans complete randomization, there may be a pattern for experts to detect, and they can crack at least part of the message. Sadly for codebreakers, because of the one-time pad concept, their hard work won't help them decipher future messages.
|