Digital Fabrication
Conceptual Rational
Information is delivered either as the content of a message or through direct or rather indirect observation of many things. The key concept of information is that the message has different meanings in dissimilar contexts. Thus concept of information becomes strictly connected to notions of communication, control, data, form, knowledge, meaning and perception. The information we use in everyday life is comprised of data required with a meaning. Data becomes information by interpretation; e.g., the height of this model(form) would generally be considered “data”, a book on 3D models and forms could be considered “information” and a tutorial/video containing practical information on the simplest ways of forming models in rhino, may be considered as “knowledge”.
This model represents a form of data (stacked data), something like a data tree but only that this stacked data structure is one branch and only collects data in a line. The name “stack” of this type of structure come from the analogy to a set of physical items stacked on top of one another. This makes It easier to take an item/data of the top of the stack, while getting to a deeper element in the stack may require taking off multiple other items off first.
This form is created to show how stacked data is presented. This has been created to display how the form changes when different data has been processed through the Arduino, which is the production of the data and delivers it to us in this project. If the data has high variables the stack will become large and grow taller, meaning it will have collected greater data. Though if the data collects low variables, it will become small. The idea behind this theory is simple, it processes things in steps to be able to complete. Only if we compile different data in order, it can be complete. If there are things missing, it will fall. Say for instance knowledge equals information, any information, but without data information means nothing. Each section is supported by another if something falls from them, then the outcome means nil.
Phases as these will be an example for everything. Take the human spine as an example, if we had missing disks from our spine, will the form of our body still be the same. Maybe not because we are missing data within our body and if one disk fails to support the whole stream then offcourse the whole spine will collapse, meaning loosing more data. Data in this big world is now treated very carefully with safety as anything could destruct rapidly if something is missing or conditionally someone else has claimed it first. This form simply means the structure of a stacked data, how one is dependent on another to be able to execute accurately. The idea cam in my thought as I was practising different exercises and the mechanism that I was interested in investigating was that the structure that we make in the plugin Grasshopper also is a written example of how data is structured and If one component is missing the form would not create correctly whether it be a simple circle or a large constructing structure.
Sound – high, low
/ \
Data = becomes Information = LED – LED’s reacting to sound =
\ / Knowledge
Sensor – high, low
Information is delivered either as the content of a message or through direct or rather indirect observation of many things. The key concept of information is that the message has different meanings in dissimilar contexts. Thus concept of information becomes strictly connected to notions of communication, control, data, form, knowledge, meaning and perception. The information we use in everyday life is comprised of data required with a meaning. Data becomes information by interpretation; e.g., the height of this model(form) would generally be considered “data”, a book on 3D models and forms could be considered “information” and a tutorial/video containing practical information on the simplest ways of forming models in rhino, may be considered as “knowledge”.
This model represents a form of data (stacked data), something like a data tree but only that this stacked data structure is one branch and only collects data in a line. The name “stack” of this type of structure come from the analogy to a set of physical items stacked on top of one another. This makes It easier to take an item/data of the top of the stack, while getting to a deeper element in the stack may require taking off multiple other items off first.
This form is created to show how stacked data is presented. This has been created to display how the form changes when different data has been processed through the Arduino, which is the production of the data and delivers it to us in this project. If the data has high variables the stack will become large and grow taller, meaning it will have collected greater data. Though if the data collects low variables, it will become small. The idea behind this theory is simple, it processes things in steps to be able to complete. Only if we compile different data in order, it can be complete. If there are things missing, it will fall. Say for instance knowledge equals information, any information, but without data information means nothing. Each section is supported by another if something falls from them, then the outcome means nil.
Phases as these will be an example for everything. Take the human spine as an example, if we had missing disks from our spine, will the form of our body still be the same. Maybe not because we are missing data within our body and if one disk fails to support the whole stream then offcourse the whole spine will collapse, meaning loosing more data. Data in this big world is now treated very carefully with safety as anything could destruct rapidly if something is missing or conditionally someone else has claimed it first. This form simply means the structure of a stacked data, how one is dependent on another to be able to execute accurately. The idea cam in my thought as I was practising different exercises and the mechanism that I was interested in investigating was that the structure that we make in the plugin Grasshopper also is a written example of how data is structured and If one component is missing the form would not create correctly whether it be a simple circle or a large constructing structure.
Sound – high, low
/ \
Data = becomes Information = LED – LED’s reacting to sound =
\ / Knowledge
Sensor – high, low