The cognitive map is generated from a number of sources, both within the visual system and elsewhere. Much of the cognitive map is created through self-generated motion signals. Inputs from the senses such as vision, proprioception, smell, and hearing are used to deduce a person's location within their environment as they move through it. This allows for path integration, the creation of a vector that represents one's position and direction within one's environment, specifically in comparison to a previous reference point. This resulting vector can be transmitted to cells in the hippocampus where it is interpreted to provide more information about the environment and one's location within the context of the cognitive map.[14]​.

Directional cues and positional landmarks are also used to create the cognitive map. Within directional cues, both explicit cues, such as markings on a compass, such as gradients, shading, or magnetic fields, are used as inputs to create the cognitive map. Directional cues can be used both statically, when a person does not move within their environment while interpreting it, and dynamically, when movement across a gradient is used to provide information about the nature of the surrounding environment. Positional landmarks provide information about the environment by comparing the relative position of specific objects, while directional cues provide information about the shape of the environment itself. These landmarks are processed by the hippocampus together to provide a graph of the environment through relative locations.[14]​.

The idea of ​​a cognitive map was first developed by Edward C. Tolman. Tolman, one of the first cognitive psychologists, introduced this idea by conducting an experiment with rats and mazes. In Tolman's experiment, a rat was placed in a cross-shaped maze and allowed to explore it. After this initial exploration, the rat was placed on one arm of the cross and the food was placed on the next arm to the immediate right. The rat was conditioned to this design and learned to turn right at the intersection to reach the food. However, when placed in different arms of the plus maze, the rat still went in the correct direction to obtain the food due to the initial cognitive map it had created of the maze. Instead of simply deciding to turn right at the intersection no matter what, the rat was able to determine the correct path to the food no matter where it was placed in the maze.[16]​.

Unfortunately, further research was slowed due to the behaviorist view that prevailed in the field of psychology at the time.[17] In later years, O'Keefe and Nadel attributed Tolman's research to the hippocampus, stating that it was the key to the rat's mental representation of its environment. This observation prompted research in this area and, consequently, much of the activity of the hippocampus is explained through the development of cognitive maps.[18]​.

As time went by, the cognitive map was investigated in other prospective fields that found it useful, leading to broader and more differentiated definitions and applications. One very prominent researcher, Colin Eden, has specifically mentioned his application of cognitive mapping simply as any representation of thought models.[19]​.

In a review, Andrew T. D. Bennett argued that there is no clear evidence for cognitive mapping in non-human animals (i.e., cognitive mapping as defined by Tolman). This argument is based on analysis of studies where it has been found that simpler explanations can account for experimental results. Bennett highlights three simpler alternatives that cannot be ruled out in tests of cognitive maps in non-human animals: “These alternatives are (1) that the apparently novel shortcut is not really novel; (2) that path integration is being used; and (3) that familiar landmarks are recognized from a new angle, followed by movement toward them.

A cognitive map is a spatial representation of the external world that is maintained within the mind, until an actual manifestation (usually a drawing) of this perceived knowledge, a mental map, is generated. Cognitive mapping is implicit mental mapping, the explicit part of the same process. In most cases a cognitive map exists independently of a mental map, an article covering only cognitive maps would remain limited to theoretical considerations.

Mind mapping is usually associated with landmarks, locations, and geography when demonstrated. Creating mind maps depends on the individual and their perceptions, whether they are influenced by media, real life, or other sources. Due to their factual storage, mental maps can be useful when giving directions and navigating.[20]​[21]​ As stated above, this distinction is difficult to identify when posed with almost identical definitions, however, a distinction exists.[22]​.

In some uses, mind mapping refers to a practice carried out by urban theorists by having city residents draw a map, from memory, of their city or the place where they live. This allows the theorist to get an idea of ​​which parts of the city or dwelling are most substantial or imaginable. This, in turn, lends itself to a decisive insight into how well urban planning has been carried out.[23]​.

• - Perception of movement, which is more directly related to the processing of speed and direction.[24]​.

• - Grid technique, a technique to identify meaning.[25]​.

• - Mind map is directly related to the expansion of a particular topic with physical diagrams.[20]​.

• - This work contains a translation derived from "Cognitive map" from Wikipedia in English, published by its editors under the GNU Free Documentation License and the Creative Commons Attribution-ShareAlike 4.0 International License.

The cognitive map is generated from a number of sources, both within the visual system and elsewhere. Much of the cognitive map is created through self-generated motion signals. Inputs from the senses such as vision, proprioception, smell, and hearing are used to deduce a person's location within their environment as they move through it. This allows for path integration, the creation of a vector that represents one's position and direction within one's environment, specifically in comparison to a previous reference point. This resulting vector can be transmitted to cells in the hippocampus where it is interpreted to provide more information about the environment and one's location within the context of the cognitive map.[14]​.

Directional cues and positional landmarks are also used to create the cognitive map. Within directional cues, both explicit cues, such as markings on a compass, such as gradients, shading, or magnetic fields, are used as inputs to create the cognitive map. Directional cues can be used both statically, when a person does not move within their environment while interpreting it, and dynamically, when movement across a gradient is used to provide information about the nature of the surrounding environment. Positional landmarks provide information about the environment by comparing the relative position of specific objects, while directional cues provide information about the shape of the environment itself. These landmarks are processed by the hippocampus together to provide a graph of the environment through relative locations.[14]​.

The idea of ​​a cognitive map was first developed by Edward C. Tolman. Tolman, one of the first cognitive psychologists, introduced this idea by conducting an experiment with rats and mazes. In Tolman's experiment, a rat was placed in a cross-shaped maze and allowed to explore it. After this initial exploration, the rat was placed on one arm of the cross and the food was placed on the next arm to the immediate right. The rat was conditioned to this design and learned to turn right at the intersection to reach the food. However, when placed in different arms of the plus maze, the rat still went in the correct direction to obtain the food due to the initial cognitive map it had created of the maze. Instead of simply deciding to turn right at the intersection no matter what, the rat was able to determine the correct path to the food no matter where it was placed in the maze.[16]​.

Unfortunately, further research was slowed due to the behaviorist view that prevailed in the field of psychology at the time.[17] In later years, O'Keefe and Nadel attributed Tolman's research to the hippocampus, stating that it was the key to the rat's mental representation of its environment. This observation prompted research in this area and, consequently, much of the activity of the hippocampus is explained through the development of cognitive maps.[18]​.

As time went by, the cognitive map was investigated in other prospective fields that found it useful, leading to broader and more differentiated definitions and applications. One very prominent researcher, Colin Eden, has specifically mentioned his application of cognitive mapping simply as any representation of thought models.[19]​.

In a review, Andrew T. D. Bennett argued that there is no clear evidence for cognitive mapping in non-human animals (i.e., cognitive mapping as defined by Tolman). This argument is based on analysis of studies where it has been found that simpler explanations can account for experimental results. Bennett highlights three simpler alternatives that cannot be ruled out in tests of cognitive maps in non-human animals: “These alternatives are (1) that the apparently novel shortcut is not really novel; (2) that path integration is being used; and (3) that familiar landmarks are recognized from a new angle, followed by movement toward them.

A cognitive map is a spatial representation of the external world that is maintained within the mind, until an actual manifestation (usually a drawing) of this perceived knowledge, a mental map, is generated. Cognitive mapping is implicit mental mapping, the explicit part of the same process. In most cases a cognitive map exists independently of a mental map, an article covering only cognitive maps would remain limited to theoretical considerations.

Mind mapping is usually associated with landmarks, locations, and geography when demonstrated. Creating mind maps depends on the individual and their perceptions, whether they are influenced by media, real life, or other sources. Due to their factual storage, mental maps can be useful when giving directions and navigating.[20]​[21]​ As stated above, this distinction is difficult to identify when posed with almost identical definitions, however, a distinction exists.[22]​.

In some uses, mind mapping refers to a practice carried out by urban theorists by having city residents draw a map, from memory, of their city or the place where they live. This allows the theorist to get an idea of ​​which parts of the city or dwelling are most substantial or imaginable. This, in turn, lends itself to a decisive insight into how well urban planning has been carried out.[23]​.

• - Perception of movement, which is more directly related to the processing of speed and direction.[24]​.

• - Grid technique, a technique to identify meaning.[25]​.

• - Mind map is directly related to the expansion of a particular topic with physical diagrams.[20]​.

• - This work contains a translation derived from "Cognitive map" from Wikipedia in English, published by its editors under the GNU Free Documentation License and the Creative Commons Attribution-ShareAlike 4.0 International License.