====== Tilos360 Concept ======

Traditional project planning mainly relies on **Gantt charts**.  
These representations make it possible to visualize activities over time,
but they do not take into account the spatial dimension of projects.

In many projects, especially **linear infrastructure projects**,
the location of the work is essential.

===== Why time-location planning? =====

Infrastructure projects have several specific characteristics:

  * work progresses along a physical alignment
  * multiple teams operate simultaneously
  * some areas can host only one activity at a time

Planning must therefore answer two key questions:

  * **When** does the work take place?
  * **Where** does it take place?

===== The time-location diagram =====

The **time-location diagram** represents simultaneously:

  * the **time axis**
  * the **distance or location axis**

Each activity therefore becomes **a trajectory within the chart**.

This representation allows to:

  * visualize the progression of crews along the alignment
  * identify spatial conflicts between activities
  * optimize work sequencing
  * improve coordination between stakeholders

===== Main tools in Tilos360 =====

Tilos360 relies on several complementary tools:

  * [[.:gantt:introduction|{{:fr:gantt:asset_6_3x.png?40|The Gantt Chart}}]] **[[.:gantt:introduction|The Gantt Chart]]**
  * [[.:time_distance:principles|{{:fr:espace_temps:asset_5_3x.png?40|The Time-Location Diagram}}]] **[[.:time_distance:principles|The Time-Location Diagram]]**
  * [[.:phasing:overview|{{:fr:phasage:asset_4_3x.png?40|Construction Staging}}]] **[[.:phasing:overview|Construction Staging]]**
  * [[.:phasing:settings:introduction|{{:fr:2026-03-11_18h39_34.png?40|Visualization and configuration tools}}]] **[[.:phasing:settings:introduction|Visualization and configuration tools]]**