30 October 2019

T 2360/13 - Coriolis flow meter software

Key points

  • In this somewhat older decision (issued 26.11.2018) the Board finds claim 1 to be inventive. Claim 1 is directed to " a method for providing ordering and configuring of flowmeters, comprising: in a server, receiving ...".
  •  " the claimed method comprises two distinct phases, namely a first phase involving the selection and ordering of the flowmeter, and a second phase involving the configuration of the flowmeter after the user has received the selected flowmeter." 
  • "the first phase of the claimed method does not go beyond the obvious application of the disclosure of document A1 to a remote ordering client-server system and the subsequent transmission of an order for the selected flowmeter."
  • " In the board's view, however, the claimed configuration step goes [of the second phase], in the technical context of the claimed method, beyond a mere communicating with other devices, and in particular with a server, in a network, and requires, as submitted by the appellant, the installation of a configuration application in the flowmeter and therefore the adjustment of the operational characteristics of the flowmeter." 
  • " claim 1 has been amended during the appeal proceedings to require that the flowmeter is remotely configured over the network by connecting the remote computer connected to the server to the flowmeter. Neither document D5, nor the remaining documents on file, disclose or suggest remotely configuring a flowmeter, not within the communications network in which the flowmeter might, in operation, be integrated, but by specifically connecting the flowmeter connected to the remote computer to the same server and over the same network previously used for carrying out the operations of selecting and subsequently ordering the flowmeter."


1. A method for providing ordering and configuring of flowmeters, comprising:
in a server (205),
receiving (415) input flow stream parameters over a network (220) from a computer (210) that is remotely located from said server;
determining (420) flowmeter parameters from said input flow stream parameters;
determining (425) whether at least one flowmeter is suitable for said flowmeter parameters;
transmitting (435) information on said at least one flowmeter to said computer over said network for display to a user;
receiving (440) a selection of one of said at least one flowmeter displayed to said user from said computer over said network;
transmitting (475) an order for said selected flowmeter; and
after said user receives said selected flowmeter, remotely configuring said selected flowmeter (477) over said network (220), by connecting the remote computer (210) connected to said server (250) to said selected flowmeter.


EPO T 2360/13 -  link


3.2 Claim 1 is directed to a method allowing a user to select and order a flowmeter and, upon reception of the flowmeter, to configure the flowmeter, using a computer connected to a server over a network and remotely located from the server. Therefore, as held by the examining division in the contested decision in respect of the independent method claim of the requests then on file, the claimed method comprises two distinct phases, namely a first phase involving the selection and ordering of the flowmeter, and a second phase involving the configuration of the flowmeter after the user has received the selected flowmeter.
3.2.1 As regards the first phase, in its decision the examining division essentially held in respect of the independent method claim of the requests then on file that
- the features relating to the selection and ordering of the flowmeter (see the claimed steps of receiving input flow stream parameters, determining the corresponding flowmeter parameters, determining flowmeters suitable for the flowmeter parameters, transmitting to a user information on the suitable flowmeters, receiving a selection by the user of one of the suitable flowmeters, and transmitting an order for the selected flowmeter) pertained to an administrative method, and the ordering phase carried out general purpose administrative data processing;
- having regard to the structural elements of the claimed method (i.e. the server, the network, and the remote computer), the closest state of the art was a notoriously known general purpose computer system such as a client-server system;
- remote order placing mechanisms for different products, such as cars, mobile phones, etc., on the basis of parameters set by a user were already known in the state of the art (see document D1, abstract, together with column 1, line 3 to column 8, line 27; and document D3, abstract), and
- it was obvious for the skilled person to implement the administrative method of remotely allowing the selection and then the ordering of a flowmeter into an appropriate general purpose computer system as claimed (Article 56 EPC 1973).


During the appeal proceedings the appellant has not disputed the examining division's view in this respect, and the board sees no reason for doing otherwise, especially as document A1 considered during the appeal proceedings further supports the examining division's conclusion. Indeed, document A1, which can be considered as an alternative closest state of the art to that considered by the examining division, discloses the use of software programs executed by a computer to first extract from a set of known flowmeters a list of suitable flowmeters adapted to the particular specifications and conditions of use entered by a user, and to then give the user the possibility of selecting one among the list of suitable flowmeters (abstract, and page 37, second column, fourth paragraph, to page 40, second column, first paragraph). Therefore, the first phase of the claimed method does not go beyond the obvious application of the disclosure of document A1 to a remote ordering client-server system and the subsequent transmission of an order for the selected flowmeter.
3.2.2 As regards the second phase of the method relating to the configuration of the flowmeter after the user has selected, ordered and received the flowmeter, the examining division referred to document D5 and held in respect of the independent method claim of the requests then on file that it was obvious to consider remotely configuring the flowmeter. In particular, the examining division held that the expression "configuring the flowmeter" encompassed the installation of an application in the flowmeter, but also communicating with other devices in a network, and that in any case configuring a flowmeter was known and doing it remotely was obvious.


In the board's view, however, the claimed configuration step goes, in the technical context of the claimed method, beyond a mere communicating with other devices, and in particular with a server, in a network, and requires, as submitted by the appellant, the installation of a configuration application in the flowmeter and therefore the adjustment of the operational characteristics of the flowmeter.
Admittedly, as held by the examining division, it was already known at the priority date to provide a server-based communications network of devices, as illustrated by document D5 disclosing a network constituted by a server interface and a set of utility meters of different types (Fig. 2 to 6 and the corresponding description), in particular of gas or water meters (page 1, first paragraph), and in which the server interface communicates with the meters through a variety of request applications (abstract, and Fig. 7 to 9 together with the corresponding description).
However, as submitted by the appellant, document D5 only discloses the bidirectional communication between the utility meters and the server interface or a remote application connected thereto over a network (page 5, lines 10 to 13, and Fig. 6 together with page 7, lines 25 to 27), and the document is silent as to the installation of configuration applications in the utility meters. In addition, claim 1 has been amended during the appeal proceedings to require that the flowmeter is remotely configured over the network by connecting the remote computer connected to the server to the flowmeter. Neither document D5, nor the remaining documents on file, disclose or suggest remotely configuring a flowmeter, not within the communications network in which the flowmeter might, in operation, be integrated, but by specifically connecting the flowmeter connected to the remote computer to the same server and over the same network previously used for carrying out the operations of selecting and subsequently ordering the flowmeter.
For these reasons, in the board's view the claimed method involves an inventive step over the available prior art.

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