| Both sides previous revisionPrevious revisionNext revision | Previous revision |
| tanszek:oktatas:techcomm:information_-_basics:information [2024/09/23 17:20] – knehez | tanszek:oktatas:techcomm:information_-_basics:information [2024/09/24 07:27] (current) – [Different approaches] knehez |
|---|
| **Definition**: | **Definition**: |
| |
| Information carries both quantitative and qualitative. Information is the characteristic of those groups which carry static and structural meaning (and are constantly reacting to each other). | Information is both **quantitative** and **qualitative**. It is the characteristic of those groups that carry static and structural meaning (and constantly react to each other). |
| |
| Information can be used to achieve an individual's goals by enhancing that person's knowledge. | Information can be used to achieve an individual's goals by enhancing that person's knowledge. |
| ====== The properties of information form a hierarchical structure ====== | ====== The properties of information form a hierarchical structure ====== |
| |
| There are usually between 3-5 levels in this structure, according to the researchers of this area. | There are usually between 3 and 5 levels in this structure, according to the researchers of this area. |
| |
| The most widely accepted structural layout is the 4-layer structure but if you take a look at the following model you may see 5 layers. | The most widely accepted structural layout is the 4-layer structure, but the following model may have 5 layers. |
| |
| {{:tanszek:oktatas:techcomm:information_-_basics:pasted:20231026-204243.png}} | {{:tanszek:oktatas:techcomm:information_-_basics:pasted:20231026-204243.png}} |
| |
| The multi-level model of information is suitable for several kind of analyses (according to different aspects). | The multi-level model of information is suitable for several kinds of analyses (according to different aspects). |
| |
| **Quantitative properties** of the information are defined by the static and syntactical laws of encoding. The **qualitative properties** of the information are defined by the semantic and pragmatic laws. | The information's Quantitative properties are defined by the static and syntactical laws of encoding, while its qualitative properties are defined by the semantic and pragmatic laws. |
| |
| * **statistical approach** examines the measurability of the information. | ==== Different approaches / levels ==== |
| |
| * **Syntactical approach** examines the formal qualities with the use of theory of coding and language theory as well. | **1.) Statistical approach** examines the measurability of the information. |
| | This level deals with the quantitative aspect of information. It focuses on the measurement and transmission of data, emphasizing the volume, redundancy, and entropy in a communication system. This approach is highly relevant in fields such as information theory (e.g., Shannon's theory), where the goal is to determine the efficiency of information encoding, transmission, and storage without considering the content or meaning of the data. |
| |
| * **Semantic approach** examines the meaning of the so-called informational primitives according to given semiotic and signal theories. | //Example//: Measuring how much data can be transmitted over a communication channel while minimizing errors. |
| |
| * **Pragmatic approach** seeks the effect of the information according to the end results/reactions and the behaviors related to them. | **2.) The Syntactical approach** examines the formal qualities using the theory of coding and language theory. |
| | The syntactical level concerns the formal structures and patterns used to represent information. This includes rules governing how symbols, letters, or words are combined according to a predefined set of grammar or syntax rules. The focus here is on structure rather than meaning, making this layer important in language theory and coding theory. |
| |
| * **Apobetical approach** seeks the sender's intended purpose and the results on the receiver's side. It has lesser meaning to the engineering point of view. | //Example//: Correctly encoding a message into a sequence of bits following a defined protocol. |
| | |
| | |
| | **3.) Semantic approach** examines the meaning of the so-called informational primitives according to given semiotic and signal theories. |
| | At this level, the focus shifts to the meaning of the information. The semantic layer is concerned with interpreting the symbols, determining their relevance, and understanding the relationship between them and what they represent. This is critical for communication theory, linguistics, and semiotics, where the meaning carried by the message must be extracted and understood. |
| | |
| | //Example//: Understanding the meaning of a sentence based on the relationship between words and what they represent in the world. |
| | |
| | **4.) Pragmatic approach** seeks the effect of information according to the results/reactions and the related behaviours. |
| | The pragmatic level evaluates how the information affects the receiver's behavior or decision-making process. It concerns the usefulness of the information, analyzing how the receiver reacts or changes based on the conveyed message. This is relevant in decision theory and behavioral sciences. |
| | |
| | //Example//: How a user responds to a weather alert by preparing for a storm. |
| | |
| | **5.) The Apobetical approach** seeks the sender's intended purpose and the receiver's results. It has less meaning from an engineering point of view. |
| | The apobetical level focuses on the intent behind the transmission of information and the desired outcome. It examines the purpose for which the information is sent and how effectively it fulfils the sender's goal. Although less prominent in engineering, this level is significant in communication design and strategy. |
| | |
| | //Example//: Sending a marketing message intended to persuade a customer to buy a product. |
