Preliminary Results Clause Samples

Preliminary Results. A first analysis was performed in January 2020 on a sample of oregano essential oil in order to test the procedure. From that analysis a total of 39 compounds (Figure 5.5) belonging mostly to phenolic and terpenes chemical classes were identified and quantified in oregano’s EO. The list of the compounds is reported in Table 5.1.

Preliminary Results. E-mail The Contractor shall communicate preliminary results via e-mail to the applicable Water Boards Project Manager.

Preliminary Results. Many unit tests have been implemented for the Context Management component. In this section, we report the results of these tests illustrating that all the operations are properly implemented. The results of the tests passed for the “in-memory” and the “Redis” backend, and for the gRPC and REST interfaces are summarized in Table 5. Note that for gRPC tests, each test involves the listing and retrieval of non-existing objects, the creation and update of the objects, the retrieval of existing objects, and the removal of the objects. In all cases, the appropriate constraints (existence of dependencies, correctness of data types, etc.) are checked. Moreover, all the operations tested are interleaved with the testing of the publish-subscribe mechanism used to retrieve notifications when the database objects are created, updated, or deleted.

Preliminary Results. ‌ This section provides preliminary results obtained with the support of an ABNO orchestrator to trigger the multiple interfaces to deploy hard isolated slices. These preliminary results have allowed us to decide the which data models to use for the TeraFlow OS implementation. They have been published in [14]. Figure 35 shows a preliminary network architecture for network slicing in TeraFlow. It consists of three main domains: SDN domain, IP domain, and optical domain. The Network Slice Controller (NSC) realizes a transport network slice in the underlying transport infrastructure, and maintains and monitors the state of its resources. The NSC will delegate to SDN Domain controllers to configure the network resources. The NSC receives a transport network slice request from the Operation Support System and Business Support System (OSS/BSS). The request is modelled using the YANG data model defined in [13] by means of the RESTCONF protocol. Internal workflow for transport network slice life- cycle management is prepared on top of L2/L3 service management (SM) workflows to interact with underlying IP and Optical Domain controllers via a RESTCONF client. Figure 36 shows the workflow to deploy hard and soft transport network slices. In the workflow, two isolated network slices are deployed. The first one allocates a connectivity service to interconnect both IP layer domains. This triggers the necessary optical configuration mechanism to each of the underlying ROADMs. Once the connectivity service has been established, the NSC is responsible for requesting the IP SDN domain controller to provision the necessary virtual routers (in the proposed scenario two site-network-access are configured: one network instance on each site). Link Aggregation Control Protocol (LACP) is configured for each network instance. Then interfaces are aggregated and properly configured using dedicated VLAN or MPLS-TE mechanisms. When a new isolated slice is requested, the NSC can request a dedicated and isolated connectivity service from the underlying optical SDN controller. The connectivity constraint is provided using disjoint path selection with the ONF Transport API. It consists of including a diversity exclusion constraint with the previous connectivity service identifier. Later, at the IP layer, new virtual routers are deployed to provide the requested degree of isolation.

Preliminary Results. As we have seen in the background the theory of q-deformations is built in parallel to the questions one finds in traditional Lie Theory. Often the nice notions of Lie Theory do not carry into its deformation, for example Uq(sl2) is not a group so does not have subgroups. Kirillov and Ostrick utilize a way of defining a “finite subgroup” for Uq(sl2) which has parallel properties to finite subgroups of sl2. Given a semi simple abelian rigid balanced braided tensor category C over C, we define a C-Algebra A as an object A ∈ C with morphisms µ : A ⊗ A → A and iA : 1 → A that satisfy the following conditions: 1. µ ◦ (µ ⊗ id) = µ ◦ (id ⊗ µ) 2. µ ◦ σA,A : A ⊗ A → A is equal to µ. 3. µ ◦ (iA ⊗ A) : 1 ⊗ A → A is equal to ▇▇▇

Preliminary Results. The preliminary results from Discovery Phases 1 and 2 must be presented in a clear and concise format, provide a timely overview of the project’s progress, and include mechanisms for meaningful feedback.

Preliminary Results. At the time of the drafting of the present deliverable, the survey preparation is still at the focus group step. We can, therefore, highlight some general points from the analysis of the contracts. Most contracts (about 82%) were provided by the UN World Intellectual Property Organization (WIPO) and the Convention of Biological Diversity (CBD). Most contracts (66%) are model contacts, gathered by the two institutions worldwide and aiming at regulating, in a broad way, access and exchange of material for pre‐competitive research and development. We can highlight the following commonalities:

Preliminary Results. In order to prove our Main Theorem 4.1, we need some preliminary lemmas and propositions. Lemma 4.2. For each step s ≥ 1 of a protocol run we have:

Preliminary Results. ‌ In this section we show preliminary results stemming from the preliminary development of the Policy Management component. These results focus on two aspects, namely (i) the realization of unit tests for testing internal processes of the Policy Management component, and (ii) the correct spawning of the Policy server offering policy management services to the TeraFlow OS. Figure 31 shows the successful outcome of six unit tests that were developed for the Policy Management component during the first TeraFlow OS release.