Route Planning implies the ability to build and evaluate individual routes.
Using the input of placenames, postcodes, addresses or coordinates the result is presented in the form of a map and an Itinerary.
The map contains a road network with speed attributes, restrictions for weight and one-way road attributes. Routing systems uses the road network for each calculation evaluating each road type. The result can be presented in either Word or Excel in detail with breakdown of driven km per road class (eg Toll roads) in each country.
Route Optimisation implies the ability to plan and optimise routes for an entire vehicle fleet.
The optimisation takes into account order volumes, constraints such as time windows, vehicle requirements, etc.
Route Optimisation systems provides effective vehicle scheduling management, allowing reduction of transport costs whilst maintaining client service. A schedule may constitute of orders for a day, but may also cover a period of three months.
The tremendous flexibility of the system makes it ideal for planning day-to-day multi-drop or trunking routes, producing detailed quotations or assessing alternative logistics strategy.
Strategic planning is as the name suggests a long-term planning. Strategic planners within a company are few, often centrally located problem solvers or internal consultants. Planning systems are usually installed locally on the user's own PC or webb-based. Input data is obtained from eg ERP systems. The planner uses such as Excel to process the input data to suit the current issue and a format that can be used in planning the program. Once the data is read it's time to perform the simulations in the system. Sample questions:
Output can be eg Maps and Excel reports with indicators of different scenarios.
The principle of the tactical planning is to create a basis for a daily planning that is reused - a fixed Route plan. The reason you want a fixed Route plan may be to serve as shops need to have staff available to handle the delivery. Many food distributors have such obligations, and then you can not change plans at short notice. The advantage of the tactical planning method is that the IT project is quite simple: you can work with local installations of route planning software, have relatively few users and, as with strategic planning, download files from the ERP system for further processing in eg Excel. In some cases, use Excel as the data source for planning. It creates a simple table with stores which are imported into the planning tool. The disadvantage of tactical planning is that with a fixed structure, it lacks the daily adjustment of resources. Example of use:
The main output is the Route plan that are distributed to relevant drivers printed on paper or downloaded to the PDA for example.
If you make the daily re-planning based on available orders and resources it is called operational planning. To get a valid operational planning it requires a link between the routing system and the company's order system. The IT part of the project will be somewhat more complex and also must verify that the data in the order system is correct. The route planner must be assured that all information in the system are correct and may be used for decision. Practical experience has shown that the technical link between the system often is relatively easy to implement but they often underestimate the difficulty of cleaning the data in the order system. These errors can be of many kinds: wrong addresses, PO boxes for deliveries, wrong information in the weight and volume, etc. When you have started an operational planning will achieve the multiple values:
The output is the same as for tactical planning, such as itineraries for drivers and overview Maps.
Some industries have a need for continuous reprogramming during the day. It can be a courier service or transportation service. You would then want a scheduling system integrated into the order system or in a map-based traffic monitoring system. A good implementation provides extremely quick response if there is opportunity for joint planning when the new orders are received. The planner does not interact with the planning process, all is done automatically with built-in functions in the order system. For example, you can start an optimisation each time a new order will be added. In the case of real-time planningm, it will require the same high standards of accurate information for operational planning. By providing the order system with validation (checking that each input data is reasonable or correct) you can avoid wrong decisions, or time-consuming manual correction. Since scheduling systems should be fully integrated into order system it requires a major IT project than any other type of planning. Characteristic of real-time planning are:
Output is presented in the form of a draft choice of vehicle for the order.
Route Optimiser provides a comprehensive range of maps around the world. Detailed maps down to street level, from providers like TomTom can be used with all Route Optimiser systems.
In addition to a detailed road network that includes restrictions for weight and one-way attributes, each map contains placenames, zipcodes and street addresses.
Absolutely! Route Optimiser has the most comprehensive database for zipcodes in Europe.
Each zipcode has a centre that is used to geocode customers according to zipcode data.
Example: Major cities in Sweden have an accuracy equivalent to neighborhood level.
Route Optimiser has a very extensive postcode database of nearly 230,000 postcodes for Europe as below:
Albania (35), Andorra (7), Armenia (60), Austria (2426), Belarus (122), Belgium (1173), Bosnia & Herzagovina (143), Bulgaria (139), Croatia (976),Cyprus (1571), Czech Republic (2938), Denmark (1223),Estonia (1464), Faroe Islands (119), Finland (3047),France (6455), Germany (29682), Gibraltar (1), Greece (722), Greenland (29), Guernsey (6), Sweden (15089), Hungary (3024), Iceland (148), Ireland (22), Isle of Man (52), Italy (4890), Jersey (3), Kirgizstan (215), Latvia (1200), Liechtenstein (13), Lithuania (920), Luxembourg (3804),Macedonia (320), Malta (30), Moldova (20), Monaco (3), Netherlands (24337), Norway (4491), Orkney Islands (3), Poland (22816), Portugal (525), Romania (110), Russian Federation (43149), San Marino (1),Slovakia (1608), Shetland Islands (6), Slovenia (549), Spain (11216), Switzerland (5143), Turkey (7470), Ukraine (18330), United Kingdom (13407), Vatican State (3), Yugoslavia (1957), Aland (32) Total: 229933
A client installation of the system on a regular PC running Windows.
Route Optimiser module built into a new system and acts as a hidden component. Plans can then be easily automated.
The system is installed on a Webserver. Works both on the Internet and Intranets. The client side needs only a web browser.
Data (eg Orders) can be imported in several standard formats, but the following formats are the most common ones:
Route Optimiser Route Optimisation is very sophisticated and we can not fully describe how all parts work. But we can provide a summary description of how the core functions are working.
Scheduling is based on several components:
Allows the system to sort all orders by a priorities. Orders are allocated to different routes according to the optimisation algorithm and order priorities. A second step of optimisation is the optimsation of the actual call sequence, in other words, the routes are optimised sequentially.
The allocation of orders to the various routes is controlled entirely by the user. It is possible to build routes interactively, for example by using the map, order lists and solid districts. As the routes are built, the user can choose at any time to optimise the call sequence, both for the entire route and sections of the route.
Route Optimiser has several solutions for time and distance calculations.
In summary, the solutions are grouped into two categories.
A distance matrix table is created in a large operation that includes travel time and distance between a certain number of starting points and destinations. Route Optimiser provides tools to process these journeys, but also perform the consultancy in the field.
Route Optimiser tools are built into the external system to generate distance and travel times as required. By calling the Route Optimiser system, you get straight back a result based on a day-to-date map. Several integration options are available, see Integration in FAQ below.
Both the Route Optimiser Route Planning and Route Optimisation systems are available as modules for integration.
The methods of integration are many - for example, it is possible to send input to the Route Optimiser Route Planning in the form of an XML file through Socket Communications.
Text format is another way to define input for Route Planning.
By calling Route Optimiser modules you may quickly get the results back that may in turn be processed by external systems. Settings define the file formats for export. Output could be, for example map files of routes, detailed Itineraries, Excel reports, etc.
Yes. Route Optimiser own maps contains attributes for weight classes.
One-way road attributes is another restriction which is included in the map data.
It is also possible to add your own restrictions on the map such as: weight, width and height.
Maps down to street level for the whole of Europe and several other countries in the world. Route Optimiser has both their own maps, and working with mapping providers such as TomTom.
There are a wide range of maps available.
Yes, it is possible to define the speed variations of individual geographical areas by making a choice directly in the map.
The map of the Route Optimiser system can be configured in several ways. In addition to speed the user can add prohibitions and restrictions on routes and areas.??
Our staff are here to answer your questions call +44 (0) 121 585 6633
Copyright © PTV UK Holding Ltd
Part of the PTV Group
5 Centre Court, Halesowen, West Midlands, United Kingdom, B63 3EB
+44 (0)121 585 6633
sales@routeoptimiser.com
Registered company number 03388732